JP4111792B2 - Wireless transmission device, wireless reception device, wireless communication device, wireless transmission method, wireless reception method, wireless communication method, wireless transmission program, wireless reception program, and wireless communication program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a wireless transmission device, a wireless reception device, a wireless communication device, a wireless transmission method, a wireless reception method, a wireless communication method, a wireless transmission program, a wireless reception program, and a wireless communication program. The present invention relates to a wireless transmission device, a wireless reception device, a wireless communication device, a wireless transmission method, a wireless reception method, a wireless communication method, a wireless transmission program, a wireless reception program, and a wireless communication program.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, in a mobile communication system such as PHS (Personal Handyphone System), a mobile terminal apparatus (hereinafter, referred to as a π / 4 shift QPSK (Quadrature Phase Shift Keying) modulation system) is used. , A terminal or PS (Personal Station)) and a radio base apparatus (hereinafter referred to as a base station or CS (Cell Station)).
[0003]
FIG. 8A is a diagram showing the arrangement of symbol points by the π / 4 shift QPSK modulation method on the IQ coordinate plane. In more detail with reference to FIG. 8A, in the π / 4 shift QPSK modulation system, as is well known, the received signal is transmitted to any one of four signal points positioned concentrically on the IQ coordinate plane. Since the symbol point corresponds, 2-bit data indicating any one of the four signal points can be transmitted at a time.
[0004]
Conventionally, a stage of establishing a wireless connection between a terminal and a base station via a control channel (Control Channel: hereinafter referred to as CCH), and then a voice or the like via a communication channel (Traffic Channel: hereinafter referred to as TCH). Communication was performed in a certain modulation scheme, for example, the above-described π / 4 shift QPSK modulation scheme, through both stages of desired data communication.
[0005]
By the way, in recent mobile communication systems, high-speed and large-capacity data transmission is required as compared with conventional voice communication, such as data communication. For this reason, the above-mentioned π / 4 shift QPSK modulation is required. A modulation scheme having a larger number of multi-values than the scheme has been developed.
[0006]
As an example of such a multi-level modulation method, a 16 QAM (Quadrature Amplitude Modulation) modulation method is known (for example, refer to Non-Patent Document 1), and has already been put into practical use in certain types of data communication.
[0007]
FIG. 8B is a diagram showing the arrangement of symbol points according to the 16QAM modulation system on the IQ coordinate plane. Referring to FIG. 8B, in the 16QAM system, as is well known, a total of 16 signal points are arranged on the IQ coordinate plane in four grids in each quadrant in a total coordinate plane. The symbol point of the received signal corresponds to one of them. Therefore, 4-bit data indicating any one of the 16 signal points can be transmitted at a time.
[0008]
Therefore, if a modulation scheme having a larger number of values such as the 16QAM modulation scheme is adopted as a modulation scheme of a mobile communication system such as PHS, information that can be transmitted at each symbol time as compared with the π / 4QPSK modulation scheme. Since the amount increases, the communication speed can be increased.
[0009]
[Non-Patent Document 1]
Seki Kiyozo “Basics of Digital Modulator / Demodulator” Ohmsha, August 10, 1984, p.124-131
[0010]
[Problems to be solved by the invention]
However, on the other hand, if conventional voice communication is performed with a modulation system having a large number of values such as the 16QAM modulation system, only half of the data area in the call slot is occupied and the remaining half of the area is used. It will not be free.
[0011]
In this case, although the communication speed is doubled as compared with the conventional π / 4QPSK modulation method, the amount of information to be transmitted does not change, so that the benefit of increasing the multi-value number cannot be obtained.
[0012]
That is, there is a problem that communication utilizing the high frequency utilization efficiency, which is an advantage of the 16QAM modulation method, is not possible due to the generation of this empty data area.
[0013]
SUMMARY OF THE INVENTION Therefore, an object of the present invention is to provide a radio transmission apparatus, radio reception apparatus, and radio communication apparatus that employs a modulation system having a large number of multi-values and can realize high frequency utilization efficiency even during conventional voice communication. A wireless transmission method, a wireless reception method, a wireless communication method, a wireless transmission program, a wireless reception program, and a wireless communication program are provided.
[0014]
[Means for Solving the Problems]
According to an aspect of the present invention, there is provided a wireless transmission device that transmits a modulation method having a large number of multi-values, wherein a signal transmitted in the wireless transmission device is divided into a plurality of frames, and each frame transmits a control signal. It includes at least one control slot for communication and a plurality of call slots for information communication. A predetermined number of consecutive frames out of a plurality of frames is taken as one unit, and data in a call slot included in each of the predetermined number of frames is combined for each unit, and the end of the predetermined number of frames is combined. Means for storing in the call slot of the frame, and means for transmitting the data of the combined call slot with the last frame as the transmission timing.
[0015]
Preferably, the information processing apparatus further includes means for storing data of a speech slot included in each of the predetermined number of frames until transmission timing. The data stored in the speech slot is read at the transmission timing and combined with the data of the last frame.
[0016]
Preferably, the transmission timing is set as the last frame with a frame that is the same frequency and that is different from each other among a plurality of users assigned the same call slot.
[0017]
More preferably, in the link channel establishment phase, the transmission timing is specified stepwise for each of a plurality of users, starting from a frame including the common control channel.
[0018]
According to another aspect of the present invention, a radio receiving apparatus that receives a modulation scheme with a large number of multi-values, a signal received by the radio receiving apparatus is divided into a plurality of frames, and each frame is a control signal. At least one control slot for transmitting information and a plurality of call slots for information communication. A predetermined number of consecutive frames out of a plurality of frames are taken as one unit, and data in the call slots included in each of the predetermined number of frames is combined for each unit, and the last of the predetermined number of frames is combined. A means for receiving data transmitted from a communication partner using a frame as a transmission timing, and a means for receiving the last frame as a reception timing, and disassembling the received data of the combined call slots, respectively, into the call slots of a predetermined number of frames. Means for storing.
[0019]
Preferably, the information processing apparatus further includes means for storing data of the call slot disassembled at the reception timing. The data of the speech slot stored and held is sequentially stored in the speech slots of a predetermined number of frames after the last frame.
[0020]
Preferably, the reception timing is set as the last frame of a frame which is the same frequency and is different among a plurality of users who are assigned the same call slot.
[0021]
More preferably, in the link channel establishment phase, the reception timing is specified stepwise for each of a plurality of users, starting from a frame including the common control channel.
[0022]
According to still another aspect of the present invention, a wireless communication apparatus that transmits and receives with a modulation scheme having a large number of multi-values, a signal transmitted and received in the wireless communication apparatus is divided into a plurality of frames, and each frame is controlled. It includes at least one control slot for transmitting signals and a plurality of call slots for information communication. A predetermined number of consecutive frames out of a plurality of frames is taken as one unit, and data in a call slot included in each of the predetermined number of frames is combined for each unit, and the end of the predetermined number of frames is combined. When stored in the call slot of the frame, the means for transmitting the data of the combined call slot using the last frame as the transmission timing, and the data of the combined call slot transmitted by the communication partner as the reception timing Means for decomposing the data of the combined call slots when received, and storing the data in the call slots of a predetermined number of frames, respectively.
[0023]
According to still another aspect of the present invention, there is provided a wireless transmission method in a wireless transmission device that transmits in a modulation scheme with a large number of multi-values, wherein a signal transmitted in the wireless transmission device is divided into a plurality of frames, The frame includes at least one control slot for transmitting a control signal and a plurality of call slots for information communication. A predetermined number of consecutive frames out of a plurality of frames is taken as one unit, and data in a call slot included in each of the predetermined number of frames is combined for each unit, and the end of the predetermined number of frames is combined. Storing in the call slot of the frame; and transmitting data of the combined call slot using the last frame as a transmission timing.
[0024]
Preferably, the method further includes the step of storing the data of the speech slot included in each of the predetermined number of frames until the transmission timing. The data of the speech slot stored and held is read at the transmission timing and combined with the data of the last frame.
[0025]
Preferably, the method further includes the step of setting a frame that is different from among a plurality of users having the same frequency and assigned the same call slot as the last frame.
[0026]
More preferably, in the step of setting the transmission timing, in the link channel establishment phase, for each of a plurality of users, subsequent frames are designated in stages starting from a frame including the common control channel.
[0027]
According to still another aspect of the present invention, there is provided a wireless reception method in a wireless reception device that receives a modulation scheme having a large number of multi-values, wherein a signal received in the wireless reception device is divided into a plurality of frames, The frame includes at least one control slot for transmitting a control signal and a plurality of call slots for information communication. A predetermined number of consecutive frames out of a plurality of frames are taken as one unit, and data in the call slots included in each of the predetermined number of frames is combined for each unit, and the last of the predetermined number of frames is combined. A step of receiving data transmitted from a communication partner using a frame as a transmission timing, and a step of receiving the last frame as a reception timing, and disassembling the received data of the combined call slots, and respectively dividing the data into call slots of a predetermined number of frames. Storing.
[0028]
Preferably, the method further includes a step of storing data of the call slot disassembled at the reception timing. The data of the speech slot stored and held is sequentially stored in the speech slots of a predetermined number of frames after the last frame.
[0029]
Preferably, the reception timing is set to the same frame and different frames among a plurality of users assigned the same call slot as the last frame.
[0030]
More preferably, the step of setting the reception timing specifies, in the link channel establishment phase, subsequent frames starting from a frame including the common control channel to each of a plurality of users.
[0031]
According to still another aspect of the present invention, there is provided a wireless communication method in a wireless communication apparatus that transmits and receives with a multi-value modulation method, wherein a signal transmitted and received in the wireless communication apparatus is divided into a plurality of frames, The frame includes at least one control slot for transmitting a control signal and a plurality of call slots for information communication. A predetermined number of consecutive frames out of a plurality of frames is taken as one unit, and data in a call slot included in each of the predetermined number of frames is combined for each unit, and the end of the predetermined number of frames is combined. When stored in the call slot of the frame, the step of transmitting the data of the combined call slot using the last frame as the transmission timing, and the data of the combined call slot transmitted by the communication partner as the reception timing Receiving, disassembling the data of the combined call slots and storing each in a call slot of a predetermined number of frames.
[0032]
According to still another aspect of the present invention, there is provided a wireless transmission program in a wireless transmission device that transmits in a modulation scheme with a large number of multi-values, wherein a signal transmitted in the wireless transmission device is divided into a plurality of frames, The frame includes at least one control slot for transmitting a control signal and a plurality of call slots for information communication. A predetermined number of consecutive frames out of a plurality of frames is taken as a unit to the computer, and data in a call slot included in each of the predetermined number of frames is combined for each unit, and a predetermined number of frames A step of storing in the call slot of the last frame and a step of transmitting data of the combined call slot using the last frame as a transmission timing are executed.
[0033]
Preferably, the computer further executes a step of storing the data of the speech slots included in each of the predetermined number of frames until the transmission timing. The data of the speech slot stored and held is read at the transmission timing and combined with the data of the last frame.
[0034]
Preferably, the computer further executes a step of setting, as the last frame, a frame which is different from each other among a plurality of users having the same frequency and assigned the same call slot.
[0035]
More preferably, in the step of setting the transmission timing, in the link channel establishment phase, subsequent frames are designated stepwise for each of a plurality of users, starting from a frame including the common control channel.
[0036]
According to still another aspect of the present invention, there is provided a wireless reception program in a wireless reception device that receives a modulation scheme with a large number of multi-values, wherein a signal received in the wireless reception device is divided into a plurality of frames, The frame includes at least one control slot for transmitting a control signal and a plurality of call slots for information communication. A predetermined number of consecutive frames out of a plurality of frames is taken as a unit to the computer, and the data in the call slots included in each of the predetermined number of frames is combined for each unit. The step of receiving the data transmitted from the communication partner with the last frame as the transmission timing, the step of receiving the data with the last frame as the reception timing, and disassembling the received data of the combined call slots, and calling the predetermined number of frames And storing each step in the slot.
[0037]
Preferably, the computer further executes the step of storing the data of the call slot disassembled at the reception timing. The data of the speech slot stored and held is sequentially stored in the speech slots of a predetermined number of frames after the last frame.
[0038]
Preferably, the computer further causes the computer to execute a step of setting a reception timing at the same frequency and a frame different from each other among a plurality of users assigned the same call slot.
[0039]
More preferably, in the step of setting the reception timing, in the link channel establishment phase, a subsequent frame is designated stepwise for each of a plurality of users, starting from a frame including the common control channel.
[0040]
According to still another aspect of the present invention, there is provided a wireless communication program in a wireless communication apparatus that transmits and receives a modulation method having a large number of values, wherein a signal transmitted and received in the wireless communication apparatus is divided into a plurality of frames, The frame includes at least one control slot for transmitting a control signal and a plurality of call slots for information communication. A predetermined number of consecutive frames out of a plurality of frames is taken as a unit to the computer, and data in a call slot included in each of the predetermined number of frames is combined for each unit, and a predetermined number of frames When the last frame is stored in the call slot of the last frame, using the last frame as the transmission timing, the step of transmitting the data of the combined call slot and the data of the combined call slot transmitted by the communication partner are stored in the last frame. When the reception timing is received, the data of the combined call slots is decomposed and stored in the call slots of a predetermined number of frames.
[0041]
Therefore, according to the present invention, it is possible to realize a high frequency utilization efficiency even in the conventional voice communication by adopting a modulation system having a large number of multi-values.
[0042]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In the drawings, the same reference numerals indicate the same or corresponding parts.
[0043]
FIG. 1 is a diagram showing transmission / reception timings for explaining the principle of the embodiment of the present invention. In the present embodiment, a 4-channel multiplex TDMA-TDD system that is widely used in PHS is adopted as an access system.
[0044]
Referring to FIG. 1, the transmission / reception timing of the 4-channel multiplex TDMA-TDD system has 8 transmission / reception slots set in one frame. For example, the first half 4 slots T0 to T3 are for transmission, and the latter half 4 slots R0 to R3 are for reception.
[0045]
In this configuration, one transmission slot and one reception slot constitute a set, and one frame signal is transmitted to terminals PS-A to PS-E (not shown) of up to four users A to D. Is assigned.
[0046]
For example, terminal PS-A of user A exchanges data with the base station at the timing of transmission slot T0 and reception slot R0, as indicated by the hatched lines in FIG.
[0047]
Similarly, one frame signal consisting of the above eight slots is also assigned to terminals PS-E to PS-H (not shown) of four users E to H.
[0048]
In this case, the terminal PS-E of the user E transmits / receives data to / from the base station with the transmission slot T0 and the reception slot R0 as one set.
[0049]
Here, in the conventional PHS system, the user A's mobile station PS-A and the user E's of the user E can be well identified and separated among the users communicating in the same time slot to prevent interference between users. The mobile station PS-E communicates with the base station at a different frequency.
[0050]
That is, the users A to D and the users E to H are accommodated in different frequencies and communicate with each other in slots assigned thereto.
[0051]
Here, if the number of users accommodated in one frequency can be increased, further improvement in frequency utilization efficiency can be expected.
[0052]
However, on the other hand, there is a limit to the number of users that can be accommodated because the number of users to be accommodated increases the period and loss of continuity, and the signal speed increases due to multiplexing.
[0053]
Therefore, in the present embodiment, data of two users (for example, user A and user E) having the same time slot are combined by taking advantage of the high communication speed of a modulation system having a large number of multi-values such as a 16QAM modulation system. By transmitting and receiving at the same frequency, the number of users that can be accommodated in one frequency can be increased from 4 users to 8 users.
[0054]
As a specific means for combining data of two users, it is difficult to store data of different users in the same slot, so as shown in FIG. 1, data corresponding to two frames of each user Are combined and stored in one frame, and the frames are transmitted and received at alternate timings at the same frequency, which is substantially equivalent to communicating with two users in one slot.
[0055]
For example, in user A, transmission / reception signals divided into a plurality of frames at a certain frequency are combined with data every two consecutive frames and stored in transmission slot T0 and reception slot R0, respectively.
[0056]
Similarly, in user E, transmission / reception signals having the same frequency as user A are combined every two consecutive frames and stored in transmission slot T0 and reception slot R0.
[0057]
Therefore, both user A and user E communicate with the base station at intervals of every other frame.
[0058]
Furthermore, if the user A and the user E share the same slot of the same frequency, the communication quality may deteriorate due to mutual interference. Therefore, the user A and the user E communicate with each other at different transmission / reception timings. To do.
[0059]
As will be described later, this transmission / reception timing starts from a frame including a common control channel (CCH) by the base station in a phase in which each of a plurality of users assigned the same slot as the base station establishes a link channel. As described above, different frames are designated stepwise for each user and transmitted to each user together with a link channel assignment notification.
[0060]
Thus, as shown in FIG. 1, in the base station, the communication with the user A and the communication with the user E are performed in such a manner that two frames of data are loaded in one slot in one frame, This is performed as transmission / reception timing.
[0061]
This is essentially equivalent to the base station communicating with two users (user A and user E) per slot, and for users B to D and users F to H for each slot. If the above processing is performed, eight users A to H can be accommodated in one frequency, and the frequency utilization efficiency can be doubled.
[0062]
FIG. 2 is a diagram schematically showing a format of a signal transmitted between the base station of FIG. 1 and two user terminals connected to each time slot.
[0063]
Note that the signal format of FIG. 2 is a configuration of a physical slot of the communication channel TCH used for communication between the CS and each PS.
[0064]
Referring to FIG. 2, TCH includes PR (preamble) that is a bit synchronization establishment pattern, UW (synchronization word) that is a pattern for establishing frame synchronization, CI (channel identification), and I (data). And CRC (redundant cyclic inspection).
[0065]
Here, in the 16QAM modulation system, the amount of information stored in the I (data) area is twice that of the π / 4QPSK modulation system, so half of the area is occupied for normal audio data, and the rest Half of the area is empty. Here, if the data of one frame before is stored in this data area, data for two frames can be transmitted in one frame.
[0066]
Therefore, a modulation system having a large number of multi-values such as a 16QAM modulation system is applied to voice communication. As described with reference to FIGS. 1 and 2, each of two users having the same time slot receives data for two frames. If the data are combined, stored in the I region in one frame, and transmitted / received to / from the base station at alternate timings, the base station can communicate with eight users on one frequency.
[0067]
FIG. 3 is a functional block diagram for illustrating the configuration of the base station according to the embodiment of the present invention.
[0068]
Referring to FIG. 3, the base station includes a plurality of antennas (for example, antennas # 1 to # 4), a radio unit 10, a reception unit 20, a demodulation unit 30, a control unit 40, and a transmission unit 70. The modulation unit 80 and the storage unit 90 are included.
[0069]
The plurality of antennas # 1 to # 4 are connected to the radio unit 10.
The control unit 40 combines the data for two frames stored in one communication slot into data for each frame, and the data for two frames are combined and stored in one call slot. And a coupling part 60 for the purpose.
[0070]
In the configuration of FIG. 3, the control unit 40 is further connected to a host control unit (not shown) via a highway, and the signal received from the user's PS is decomposed into signals for each frame by the decomposition unit 50. The data sent from the host controller to each frame is combined by the combiner 60 every two frames.
[0071]
The host control unit (not shown) sends radio waves from the PS to the physical line of the public line network (not shown) and relays the signal from the physical line of the public line network to the radio. It is a part to become.
[0072]
The storage unit 90 is specifically composed of a memory or the like. When the control unit 40 decomposes or combines data, it receives instructions from the control unit 40 and stores and reads data in the internal data storage unit. .
[0073]
In this configuration, at the time of reception, signals received every other frame by the antennas # 1 to # 4 are given to the receiving unit 20 via the radio unit 10. The received signal supplied to the receiving unit 20 is subjected to various analog signal processing such as amplification and frequency conversion, and is converted into a digital signal by an A / D converter (not shown). Further, the receiving unit 20 is controlled by the control unit 40 to separate and extract signals of each user. The separated received signals of each user are given to the demodulator 30, subjected to necessary demodulation processing and time division processing, restored to the original signal, and output to the control unit 40.
[0074]
In the control unit 40, the decomposition unit 50 decomposes the data for two frames stored in one call slot, and sequentially sends the data from the oldest one frame to an upper control unit (not shown). At this time, the control unit 40 temporarily holds the data of the latter half of the decomposed data in the data storage unit of the storage unit 90 and outputs it to the upper control unit at the timing of the next frame.
[0075]
Therefore, in a public line network (not shown), data is continuously transmitted for each frame as in the prior art.
[0076]
On the other hand, at the time of transmission, a transmission signal given from a public network (not shown) is sent to the control unit 40 via an upper control unit (not shown). In the control unit 40, the combining unit 60 combines the data of transmission signals continuously transmitted every frame, and transmits the data to the modulation unit 80 every two frames.
[0077]
Note that the data of the preceding frame is temporarily held in the data storage unit of the storage unit 90 in order to combine the data of the preceding frame and the data of the subsequent frame.
[0078]
Then, the held data of the preceding frame is read out by the control unit 40 at the transmission timing of the subsequent frame and combined with the data of the subsequent frame.
[0079]
Subsequently, the transmission signal transmitted to the modulation unit 80 is subjected to necessary time division processing and modulation processing, and is provided to the transmission unit 70. In the transmission unit 70, the transmission signal is converted into an analog signal by a D / A converter (not shown), and various analog signal processing necessary for wireless transmission such as amplification and frequency conversion is performed.
[0080]
At the time of transmission, a signal from the transmission unit 70 is supplied to the antennas # 1 to # 4 via the radio unit 10, and is transmitted from the antennas # 1 to # 4 to a desired PS.
[0081]
FIG. 4 is a functional block diagram for explaining the configuration of the terminal according to the embodiment of the present invention.
[0082]
Referring to FIG. 4, PS differs from CS in FIG. 3 only in that the antenna connected to the radio unit is configured by one, and description of overlapping parts will not be repeated.
[0083]
Also in PS, as in CS, when signals are received via the antenna 110 every other frame at the time of reception, they are decomposed when sent to the control unit 40 via the radio unit 10, the reception unit 20, and the demodulation unit 30. The unit 50 separates data for two frames stored in one slot. The separated data is transmitted frame by frame to a host controller (not shown) via the highway.
[0084]
The storage unit 90 temporarily holds data corresponding to the subsequent frame among the decomposed data until the next timing.
[0085]
Further, at the time of transmission, the transmission signal for each frame received from the upper control unit is combined with the data of two frames before and after the combining unit 60 of the control unit 40 and stored in one slot. Further, the transmission signal is output from the antenna 110 to the CS every other frame via the modulation unit 80, the transmission unit 70, and the radio unit 10.
[0086]
FIG. 5 is a diagram showing a call sequence flow performed between the base station and the terminal configured as described above.
[0087]
The configuration of the functional block diagram of the base station of FIG. 3 and the terminal of FIG. 4 is actually executed by software according to the flowcharts shown in FIGS. 6 and 7 by a digital signal processor (DSP) not shown. Is. The DSP reads a program including the steps of the flowcharts shown in FIGS. 6 and 7 from a memory (not shown) and executes the program. This program can be downloaded from a center (not shown) via a circuit control unit and a public line (not shown).
[0088]
Referring to FIG. 5, first, a link channel establishment request signal (LCH establishment request signal) is transmitted from the terminal to the base station using control channel CCH. It is assumed that the following communication including this LCH establishment request is executed by the 16QAM modulation method.
[0089]
Next, the base station detects a free channel (free call channel: free TCH) and transmits a link channel assignment signal (LCH assignment signal) for designating a free TCH using CCH to the terminal.
[0090]
At this time, the LCH allocation signal includes information on transmission / reception timing designated for each user in addition to the allocated slot and frequency.
[0091]
After the link channel is established, communication is started at the designated intermittent timing. As the first step, the terminal transmits a synchronization burst to the base station using the designated TCH, and the base station also returns a synchronization burst signal to the terminal to complete synchronization establishment.
[0092]
FIG. 6 is a flowchart for explaining data division processing executed by the control unit of the wireless communication apparatus according to this embodiment.
[0093]
Since these processes are operations performed in common with the base station of FIG. 3 and the mobile station of FIG. 4, this time, the operation of the terminal to process the signal received from the base station will be described. The description is omitted for the case where is received.
[0094]
Referring to FIG. 6, it is assumed that one user terminal receives a reception signal from a base station via antenna 110 in FIG.
[0095]
Here, when receiving the received signal via the radio unit 10, the receiving unit 20, and the demodulating unit 30, the control unit 40 of the user terminal determines whether or not it is the reception timing of its own terminal (step S110). . Whether or not it is the reception timing of its own terminal is determined based on the reception timing designated by the base station in the link channel establishment phase.
[0096]
If it is determined in step S110 that it is the reception timing of its own terminal, the control unit 40 receives the signal, and the decomposition unit 50 decomposes the data for two frames included in the call slot. Further, among the decomposed data, the data of the preceding frame is transferred to the highway 100, and the data of the subsequent frame is held in the data storage unit of the storage unit 90 (step S120).
[0097]
On the other hand, if it is determined that it is not the reception timing of its own terminal, the data of the subsequent frame held in the storage unit 90 is transferred to the highway 100 (step S130).
[0098]
As a result, the data for two frames received at the intermittent timing is disassembled, restored to the original data for each frame, transferred to the highway, and sent to the public network via the host control unit. Become.
[0099]
The disassembling process at the time of reception in the base station is executed in the same procedure as in FIG. 6, but the determination of the reception timing in step S110 is based on the reception timing designated for each user. The only difference is in identifying the signal.
[0100]
FIG. 7 is a flowchart for explaining data combining processing executed by the control unit of the wireless communication apparatus according to the embodiment of the present invention.
[0101]
Since these processes are operations performed in common with the base station of FIG. 3 and the terminal of FIG. 4, as in FIG. 6, this time, the operation of outputting a transmission signal from the terminal to the base station will be described. However, the description of the case where the base station transmits is omitted.
[0102]
Referring to FIG. 7, first, in one user terminal, transmission data is transmitted frame by frame from control unit 40 in FIG. 4 via highway 100 from the upper control unit.
[0103]
Next, the control unit 40 of the user terminal determines whether or not it is the transmission timing of its own terminal (step S210). This determination is made by the control unit 40 based on the transmission timing designated by the base station in the link establishment phase.
[0104]
Here, when it is determined that the transmission timing of the terminal itself is present, the control unit 40 stores the data in the call slot at the current timing and the data in the call slot one frame before, and stores the data in the storage unit 90 in advance. The data held in the sections are combined and stored in the data area in the call slot at the current timing.
[0105]
Further, the combined data is output from the desired antenna 110 via the modulation unit 80, the transmission unit 70, and the radio unit 10.
[0106]
On the other hand, when determining that it is not the transmission timing of the own terminal, the control unit 40 holds the data in the call slot at the current timing in the data storage unit in the storage unit 90 until the own transmission timing.
[0107]
As a result, data for two frames is transmitted from the terminal to the base station every other frame.
[0108]
Furthermore, since the transmission signals of two users are transmitted to the base station at alternate timings, which is substantially equivalent to sharing one call slot with two users, the frequency utilization efficiency is improved. It is improved twice.
[0109]
In the above description of the embodiment, the 16QAM modulation method has been described as an example of a modulation method with a large number of multi-values. However, the present invention is not limited to this modulation method, It can also be applied to other modulation schemes.
[0110]
The embodiment disclosed this time should be considered as illustrative in all points and not restrictive. The scope of the present invention is defined by the terms of the claims, rather than the description above, and is intended to include any modifications within the scope and meaning equivalent to the terms of the claims.
[0111]
【The invention's effect】
As described above, according to the present invention, when a modulation system having a large number of values such as a 16QAM modulation system is used for voice data communication, data of speech slots of consecutive frames are combined to form one speech slot. , And transmitting and receiving with a plurality of users at different timings, one slot can be substantially shared by a plurality of users, and the frequency utilization efficiency can be improved.
[Brief description of the drawings]
FIG. 1 is a diagram showing transmission / reception timings for explaining the principle of an embodiment of the present invention;
FIG. 2 is a diagram schematically illustrating a format of a signal for each user transmitted between a base station and a user terminal connected to each time slot.
FIG. 3 is a functional block diagram for illustrating a configuration of a base station according to the embodiment of the present invention.
FIG. 4 is a functional block diagram for illustrating a configuration of a terminal according to the embodiment of the present invention.
FIG. 5 is a diagram showing a call sequence flow performed between a base station and a mobile station according to the embodiment of the present invention.
FIG. 6 is a flowchart for explaining data division processing executed by the control unit of the wireless communication apparatus according to the embodiment of the present invention;
FIG. 7 is a flowchart for explaining data combining processing executed by the control unit of the wireless communication apparatus according to the embodiment of the present invention;
FIG. 8 is a diagram illustrating the arrangement of symbol points by the π / 4 shift QPSK modulation method (A) and the 16QAM modulation method (B) on the IQ coordinate plane.
[Explanation of symbols]
# 1 to # 4, 110 antenna, 10 radio unit, 20 receiving unit, 30 demodulating unit, 40 control unit, 50 disassembling unit, 60 combining unit, 70 transmitting unit, 80 modulating unit, 90 storage unit, 100 highway.

Claims (15)

A radio transmitting apparatus that transmits a multi-value modulation scheme,
A signal transmitted in the wireless transmission device is divided into a plurality of frames, each frame including at least one control slot for transmitting a control signal and a plurality of communication slots for information communication,
The plurality of call slots are assigned a predetermined number of users for each call slot ,
Means for setting different frames between the predetermined number of users at the transmission timing of the wireless transmission device;
For each of the predetermined number of users, the predetermined number of consecutive frames with the frame belonging to the transmission timing as the last frame is defined as one unit, and each unit is included in the predetermined number of frames. Means for combining data in a call slot and storing in the call slot of the last frame;
Means for transmitting data of the combined call slots according to the transmission timing for each of the predetermined number of users . A radio receiving apparatus for receiving a multi-value modulation scheme,
A signal received by the wireless receiver is divided into a plurality of frames, each frame including at least one control slot for transmitting a control signal and a plurality of call slots for information communication,
The plurality of call slots are assigned a predetermined number of users for each call slot ,
Means for setting different frames among the predetermined number of users at a reception timing of the wireless reception device;
For each of the predetermined number of users, among the plurality of frames, the predetermined number of frames consecutive as a last frame is a frame belonging to the transmission timing, and for each unit, the predetermined number of frames Means for receiving the data transmitted by the communication partner by combining the data in the call slots included in each according to the set reception timing ;
Decomposing the data of said received combined call slot, and means for storing each call slot in the frame of the plant constant, the radio receiving apparatus. A radio communication apparatus for transmitting and receiving a multi-value modulation scheme,
A signal transmitted and received in the wireless communication device is divided into a plurality of frames, each frame including at least one control slot for transmitting a control signal and a plurality of call slots for information communication,
The plurality of call slots are assigned a predetermined number of users for each call slot ,
Means for setting different frames among the predetermined number of users as transmission / reception timings of the wireless communication device ;
For each of the predetermined number of users, the predetermined number of consecutive frames with the frame belonging to the transmission timing as the last frame is defined as one unit, and each unit is included in the predetermined number of frames. Means for transmitting data of the combined call slot according to the set transmission timing, by combining the data in the call slot and storing in the call slot of the last frame ;
Means for decomposing the data of the combined call slots and storing the data in the call slots of the predetermined number of frames when the data of the combined call slots transmitted by the communication partner is received according to the set reception timing; A wireless communication device comprising: A radio transmission method in a radio transmitting apparatus that transmits a multi-value modulation scheme,
A signal transmitted in the wireless transmission device is divided into a plurality of frames, each frame including at least one control slot for transmitting a control signal and a plurality of communication slots for information communication,
The plurality of call slots are assigned a predetermined number of users for each call slot ,
Setting different frames among the predetermined number of users at the transmission timing of the wireless transmission device ;
For each of the predetermined number of users, the predetermined number of consecutive frames with the frame belonging to the transmission timing as the last frame is defined as one unit, and each unit is included in the predetermined number of frames. Combining the data in the call slot and storing it in the call slot of the last frame;
Transmitting the data of the combined call slots according to the transmission timing for each of the predetermined number of users . A radio reception method in a radio receiver for receiving a multi-value modulation scheme,
A signal received by the wireless receiver is divided into a plurality of frames, each frame including at least one control slot for transmitting a control signal and a plurality of call slots for information communication,
The plurality of call slots are assigned a plurality of users for each call slot ,
Setting different frames for the predetermined number of users as reception timings of the wireless reception device;
For each of the predetermined number of users, among the plurality of frames, the predetermined number of frames consecutive as a last frame is a frame belonging to the transmission timing, and for each unit, the predetermined number of frames Receiving the data transmitted by the communication partner by combining the data in the call slots included in each according to the set reception timing ;
Decomposing the data of said received combined call slot, and a step of storing each call slot in the frame of the plant constant, radio reception method. A radio communication method in a radio communication apparatus for transmitting and receiving a multi-value modulation scheme,
A signal transmitted and received in the wireless communication device is divided into a plurality of frames, each frame including at least one control slot for transmitting a control signal and a plurality of call slots for information communication,
The plurality of call slots are assigned a predetermined number of users for each call slot ,
Setting different frames among the predetermined number of users as transmission / reception timings of the wireless communication device;
For each of the predetermined number of users, the predetermined number of consecutive frames with the frame belonging to the transmission timing as the last frame is defined as one unit, and each unit is included in the predetermined number of frames. Combining the data in the call slot and storing in the call slot of the last frame, transmitting the data of the combined call slot according to the set transmission timing;
The data of the bound call slots communicating party transmits, when receiving in accordance with the reception timing set to decompose data of the combined call slot, respectively stored in the call slots of the frame of the plant constant step A wireless communication method comprising: A radio transmission program in a radio transmitting apparatus that transmits a multi-value modulation scheme,
A signal transmitted in the wireless transmission device is divided into a plurality of frames, each frame including at least one control slot for transmitting a control signal and a plurality of communication slots for information communication,
The plurality of call slots are assigned a predetermined number of users for each call slot ,
Setting different frames among the predetermined number of users at the transmission timing of the wireless communication device;
For each of the predetermined number of users, the predetermined number of consecutive frames with the frame belonging to the transmission timing as the last frame is defined as one unit, and each unit is included in the predetermined number of frames. Combining the data in the call slot and storing it in the call slot of the last frame;
A wireless transmission program for executing, for each of the predetermined number of users, a step of transmitting data of the combined call slots according to the transmission timing . Further cause the computer to execute a step of storing the data of the call slots included in each frame of the plant constant until the transmission timing,
8. The wireless transmission program according to claim 7, wherein the data of the call slot stored and held is read at the transmission timing and combined with the data of the last frame. Step of setting the transmission timing are the same frequency, and a predetermined number assigned to the same call slots of mutually different frames between the user to set as the last frame, according to claim 7 Wireless transmission program. In the link channel establishment phase, the step of setting the transmission timing specifies, in a link channel establishment phase, subsequent frames starting from a frame including a common control channel in a stepwise manner for each of the predetermined number of users. The wireless transmission program described. A radio receiving program in a radio receiver for receiving a multi-value modulation scheme,
A signal received by the wireless receiver is divided into a plurality of frames, each frame including at least one control slot for transmitting a control signal and a plurality of call slots for information communication,
The plurality of call slots are assigned a predetermined number of users for each call slot ,
Setting different frames for the predetermined number of users as reception timings of the wireless reception device;
For each of the predetermined number of users, among the plurality of frames, the predetermined number of frames consecutive as a last frame is a frame belonging to the transmission timing, and for each unit, the predetermined number of frames Receiving the data transmitted by the communication partner by combining the data in the call slots included in each according to the set reception timing ;
Decomposing the data of said received combined call slot, and a step of storing each call slot in the frame of the plant constant, radio reception program. Causing the computer to further execute a step of storing the data of the call slot disassembled at the reception timing;
The data has been stored and held the call slot, sequentially stores the call slots of the frame of the plant constant for the last frame after radio receiving program according to claim 11. Step of setting the reception timing is the same frequency, and a predetermined number assigned to the same call slots of mutually different frames between the user to set as the last frame, according to claim 11 Wireless reception program. In the link channel establishment phase, the step of setting the reception timing specifies, in a stepwise manner, subsequent frames starting from a frame including a common control channel for each of the predetermined number of users. The wireless reception program described. A wireless communication program in a radio communication apparatus for transmitting and receiving a multi-value modulation scheme,
A signal transmitted and received in the wireless communication device is divided into a plurality of frames, each frame including at least one control slot for transmitting a control signal and a plurality of call slots for information communication,
The plurality of call slots are assigned a predetermined number of users for each call slot ,
Setting different frames among the predetermined number of users as transmission / reception timings of the wireless communication device;
For each of the predetermined number of users, the predetermined number of consecutive frames with the frame belonging to the transmission timing as the last frame is defined as one unit, and each unit is included in the predetermined number of frames. Combining the data in the call slot and storing in the call slot of the last frame, transmitting the data of the combined call slot according to the set transmission timing ;
The data of the bound call slots communicating party transmits, when receiving in accordance with the reception timing set to decompose data of the combined call slot, respectively stored in the call slots of the frame of the plant constant step A wireless communication program that executes

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