JP2006303894A - Radio communications apparatus, and radio communication method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To efficiently transmit control information data and user information data. <P>SOLUTION: A size, equal to the minimum data amount of a control information data amount to be changed, is set as the size of the control information field of a default. When the size of the control information data amount is the same as that of the control information field of the default, a physical channel constituting part 107 assigns the control information data to the control information field, assigns the user information data to a user information field, and generates the frame of a physical channel. When the size of the control information data amount exceeds that of the control information field of the default, the physical channel constituting part 107 extends the control information field, so that the size of the control information field becomes that of the control information data amount. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a radio communication device and a radio communication method, and more particularly to a radio communication device and a radio communication method applied to a mobile communication system in which the amount of information data varies.

In a mobile communication system, control information data and user information data are transmitted using a physical channel frame format composed of a control information field for assigning control information data and a user information field for assigning user information data. May be. The sizes of these control information field and user information field are fixed (see, for example, Non-Patent Document 1).
3GPP TR25.211 V6.1.0 (2004-06)

  However, in a mobile communication system in which the propagation environment fluctuates, there is a problem that efficient transmission is not possible when the physical channel frame format with a fixed size of the control information field and the user information field as described above is used. . In other words, when the amount of control information data varies as the propagation environment varies, the amount of control information data with the largest amount of data is required to transmit the varying control information data using the same physical channel frame format. Must be secured as the size of the control information field.

  Therefore, when the amount of control information data is less than the size of the control information field, a part of the control information field is not used, and a field in which no meaningful data is allocated is generated in the physical channel frame format. In some cases, efficient transmission cannot be achieved.

  SUMMARY An advantage of some aspects of the invention is that it provides a wireless communication device and a wireless communication method capable of efficiently transmitting control information data and user information data.

  In order to solve such a problem, a wireless communication apparatus according to the present invention includes control information data generation means for generating control information data whose data amount varies, and the generated control information data in a transmission unit area of a physical channel. Allocate the user information data to an area of the same size as the data amount of the control information data, and assign user information data to all areas other than the area to which the control information data is assigned among the areas of the transmission unit of the physical channel, and transmit the physical channel A configuration having physical channel configuration means for generating units.

  The wireless communication method of the present invention includes a control information data generation step for generating control information data whose data amount varies, and the generated control information data is converted into the data amount of the control information data in a region of a transmission unit of a physical channel. Physical channel configuration step of allocating user information data to areas of equal size and allocating user information data to all areas of the physical channel transmission unit other than the area to which the control information data is allocated to generate a physical channel transmission unit And to have.

  According to these, control information data whose data amount fluctuates is allocated to an area having a size equal to the data amount of the control information data in the transmission unit area of the physical channel, and the user information data is assigned to the transmission unit area of the physical channel. Of these, the physical channel transmission unit is generated by allocating to all areas other than the area to which the control information data is allocated, so even when the amount of control information data fluctuates, the area is wasted in the physical channel transmission unit area And the transmission efficiency of the entire physical channel can be improved.

  ADVANTAGE OF THE INVENTION According to this invention, the radio | wireless communication apparatus and radio | wireless communication method which can transmit control information data and user information data efficiently can be provided.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

(Embodiment 1)
FIG. 1 is a block diagram showing a configuration of radio communication apparatus 100 according to Embodiment 1 of the present invention.

  The radio communication apparatus 100 includes an RF (Radio Frequency) receiving unit 101, a demodulating unit 102, an error correction decoding unit 103, an error determination unit 104, an ACK / NACK generation unit 105, a control information data amount calculation unit 106, and a physical channel configuration unit 107. , An error correction encoding unit 108, a modulation unit 109, and an RF transmission unit 110.

  The RF reception unit 101 performs predetermined wireless reception processing (down-conversion, A / D conversion, etc.) on the signal received via the antenna, and outputs the obtained reception data signal to the demodulation unit 102.

  Demodulation section 102 demodulates the received data signal and outputs the obtained demodulated signal to error correction decoding section 103.

  Error correction decoding section 103 performs error correction decoding on the demodulated signal and outputs the received data obtained to error determination section 104.

  Error determination section 104 performs error determination on the received data, outputs the error determination result to ACK / NACK generation section 105, and outputs the received data to the subsequent process.

  The ACK / NACK generation unit 105 generates control information data based on the error determination result output from the error determination unit 104. Specifically, when an error determination result indicating that user information data has been correctly demodulated is output from error determination section 104, ACK / NACK generation section 105 generates an ACK signal as control information data. On the other hand, when the error determination unit 104 outputs a determination result indicating that the user information data cannot be demodulated correctly and retransmission is necessary, the ACK / NACK generation unit 105 transmits the NACK signal and information necessary for retransmission (retransmission bit). Is generated as control information data.

  The ACK signal and the NACK signal are usually represented by 1 bit of either 0 or 1, and the data amount is the same. Therefore, in the case where the ACK / NACK generation unit 105 generates the NACK signal as control information data and the information necessary for retransmission, the information required for retransmission is more divided when the ACK signal is generated. Only a small amount of control information data. That is, the amount of control information data varies depending on the result of error determination in the error determination unit 104. The ACK / NACK generation unit 105 outputs the obtained control information data to the control information data amount calculation unit 106 and the physical channel configuration unit 107.

  The control information data amount calculation unit 106 calculates the data amount of the control information data and outputs the obtained control information data amount to the physical channel configuration unit 107.

  The physical channel configuration unit 107 assigns control information data and user information data to the physical channel frame based on the control information data amount. Hereinafter, a procedure for assigning control information data and user information data to a physical channel frame will be described with reference to the physical channel frame format shown in FIG. FIG. 2A shows an example of a default physical channel frame format. The physical channel frame format includes a control information field and a user information field. Here, the size of the default control information field shown in FIG. 2A is the same as the size corresponding to the smallest control information data amount among the variable control information data amounts. As described above, the amount of control information data is smaller when the control information data is an ACK signal than when it is NACK signal and information necessary for retransmission. Therefore, the data amount of the ACK signal with a small data amount is set as the size of the default control information field.

  When the control information data is an ACK signal, the physical channel configuration unit 107 allocates the ACK signal to the control information field because the amount of the control information data is the same as the size of the default control information field. A physical channel frame is generated by assigning to the user information field.

  On the other hand, if the control information data is a NACK signal and information necessary for retransmission, the amount of control information data exceeds the size of the default control information field. Extend the control information field as shown. At this time, the physical channel configuration unit 107 makes the size of the control information field the same as the control information data amount. Specifically, the physical channel configuration unit 107 expands the control information field until the size of the control information field becomes a size necessary for allocating information necessary for NACK signal and retransmission. Then, physical channel configuration section 107 assigns a NACK signal and information necessary for retransmission to the control information field, and assigns user information data to the user information field to generate a physical channel frame.

  As described above, in the present embodiment, a size equal to the minimum data amount of the variable control information data amount is set as the default control information field size. When the control information data amount exceeds the default control information field size, the physical channel configuration unit 107 expands the control information field so that the size of the control information field becomes the control information data amount.

  As a result, the control information field is always free and is filled with the control information data regardless of fluctuations in the amount of control information data. That is, when viewed as a whole frame of the physical channel, regardless of fluctuations in the amount of control information data, useless fields are eliminated and control information data and user information data are allocated to the physical channel frame. As a result, transmission efficiency can be improved. The physical channel configuration unit 107 outputs the obtained frame of the physical channel to the error correction encoding unit 108.

  In the above-described example, the physical channel configuration unit 107 uses the physical channel frame format shown in FIG. 2A or FIG. 2B according to the control information data amount. However, the present invention is not limited to this. When the control information field and the user information field remain the default (FIG. 2A) and the control information data amount exceeds the size of the default control information field, a part of the control information data is stored in the user information field. It is good also as assigning to a part and assigning user information from the remaining part. Further, the control information data and the user information data may be sequentially allocated from the head of the physical channel frame without providing a field separator such as the control information field and the user information field.

  That is, in assigning control information data and user information data, the physical channel configuration unit 107 assigns control information data and user information data continuously without creating useless fields.

  Error correction coding section 108 performs error correction coding on each data allocated to the physical channel frame, and outputs the obtained error correction coded data to modulation section 109. Error correction coding may be performed only on user information data, or may be performed on both control information data and user information data.

  Modulating section 109 modulates error correction encoded data and outputs the obtained modulated data to RF transmitting section 110. The control information data and the user information data may be differently modulated or the same modulation may be performed.

  The RF transmission unit 110 performs predetermined wireless transmission processing (D / A conversion, up-conversion, etc.) on the modulated data and transmits the modulated data via an antenna.

  Next, a method for assigning control information data and user information data to the frame of the physical channel by radio communication apparatus 100 configured as described above will be described.

  A signal transmitted from the communication partner is received via the antenna of the wireless communication apparatus 100 and the RF receiving unit 101, and the obtained received signal is output to the demodulating unit 102. The demodulating unit 102 demodulates the received signal, and the obtained demodulated signal is output to the error correction decoding unit 103. Then, the error correction decoding unit 103 performs error correction decoding on the demodulated signal, and the received data obtained is output to the error determination unit 104. The received data is subjected to error determination by the error determination unit 104, and the error determination result is output to the ACK / NACK generation unit 105.

  Then, based on the error determination result of the received data, the ACK / NACK generation unit 105 uses the ACK signal or NACK signal and information necessary for retransmission (hereinafter referred to as “ACK / NACK signal”) as control information data. Generated. Specifically, when the error determination unit 104 determines that the user information data has been correctly demodulated, an ACK signal is generated as control information data.

  On the other hand, when the error determination unit 104 determines that the user information data cannot be correctly demodulated and needs to be retransmitted, the NACK signal and information necessary for retransmission (information specifying a retransmission bit, etc.) are used as control information data. Generated. The obtained control information data is output to the control information data amount calculation unit 106.

  That is, the ACK / NACK generation unit 105 generates an ACK signal, or a NACK signal and information (ACK / NACK signal, etc.) necessary for retransmission depending on the error determination result.

  The control information data amount calculation unit 106 calculates the data amount of the control information data, and the obtained control information data amount is output to the physical channel configuration unit 107. Then, the physical channel configuration unit 107 assigns control information data and user information data to the physical channel frame based on the control information data amount. Hereinafter, a method of assigning control information data and user information data to a frame of a physical channel will be described using FIG. 2 again.

  As described above, the default size of the control information field in the physical channel frame format shown in FIG. 2A is set to a size corresponding to the minimum control information data amount among the variable control information data amounts. Yes. Specifically, the data amount of the ACK signal is set as the size of the default control information field. Accordingly, when the ACK / NACK generation unit 105 generates an ACK signal as control information data, the control information data amount output from the control information data amount calculation unit 106 is equal to the size of the control information field. In this case, the physical channel configuration unit 107 assigns an ACK signal to the control information field and assigns user information data to the user information field to generate a physical channel frame.

  On the other hand, when the ACK / NACK generation unit 105 generates a NACK signal as control information data and information necessary for retransmission, the control information data amount output from the control information data amount calculation unit 106 is the control information data amount. In order to exceed the size of the field, the control information field is expanded in the physical channel configuration unit 107. At this time, as described above, the control information field is expanded to a size corresponding to the control information data amount. Specifically, the control information field is expanded to a size necessary for assigning information necessary for NACK signal and retransmission. Then, the physical channel configuration unit 107 multiplexes the NACK signal, information necessary for retransmission, and user information data into the control information field and the user information field, respectively, to generate a physical channel frame.

  Thus, in the present embodiment, as the default size of the control information field, a size corresponding to the minimum control information data amount among the variable control information data amounts is set, and the control information data amount is set to the control information field size. If it exceeds, the control information field is expanded. As a result, control information data is always assigned to the control information field. That is, regardless of fluctuations in the amount of control information data, useless fields are eliminated and control information data and user information are efficiently allocated to physical channel frames. As a result, transmission efficiency can be improved. The physical channel frame generated by the physical channel configuration unit 107 is output to the error correction encoding unit 108.

  Then, error correction encoding section 108 performs error correction encoding on the physical channel frame data, and the obtained error correction encoded data is output to modulation section 109.

  The error correction encoded data is modulated by the modulation unit 109, and the obtained modulation data is subjected to predetermined radio transmission processing (D / A conversion, up-conversion, etc.) by the RF transmission unit 110 and then the antenna. Sent through.

  As described above, according to the present embodiment, control information data and user information data are continuously assigned to the frame format of the physical channel regardless of fluctuations in the amount of control information data. For this reason, there is no wasted field, and transmission can be efficiently performed when viewed as the entire physical channel frame.

  Since the amount of control information data varies due to fluctuations in the propagation environment, information indicating the separation between the control information data and the user information data in the physical channel frame format is notified to the communication partner in advance when the physical channel frame is transmitted. It is necessary to keep.

  Alternatively, as shown in FIGS. 3A and 3B, in the physical channel configuration unit 107, before the control information data (see FIGS. 3A and 3B) in the frame of the same physical channel as the control information data. Information regarding the control information data amount may be assigned to the control information data amount field) in 3 (b) and notified. As a result, when the control information data amount fluctuates, the communication partner can identify the separation between the control information data and the user information data even when the control information data amount is not notified from the wireless communication apparatus to the communication partner in advance. Become.

  In the present embodiment, it is assumed that an ACK signal or a NACK signal and information necessary for retransmission (such as an ACK / NACK signal) are generated as control information data based on an error determination result of received data. However, the generation of the control information data is not limited to this.

(Embodiment 2)
The feature of the second embodiment of the present invention is that, in addition to the first embodiment, information on the radio quality is assigned to the frame of the physical channel only when the radio quality fluctuation is larger than a predetermined threshold, and the radio quality fluctuation is predetermined. If the threshold value is equal to or less than the threshold value, information on the radio quality is not assigned to the physical channel frame.

  FIG. 4 is a block diagram showing a configuration of radio communication apparatus 200 according to Embodiment 2 of the present invention. In the wireless communication apparatus of this embodiment shown in FIG. 4, the same reference numerals as those in FIG. 4 includes a control information data amount calculation unit 203 and a physical channel configuration unit 204 instead of the control information data amount calculation unit 106 and the physical channel configuration unit 107, as compared to FIG. A configuration in which a Doppler frequency measurement unit 202 is added is adopted.

  The radio quality measurement unit 201 measures the radio quality of the signal received by the RF reception unit 101, and obtains information about the obtained radio quality (hereinafter referred to as “radio quality information”) and the Doppler frequency measurement unit 202 and the physical channel configuration. Output to the unit 204.

  The Doppler frequency measurement unit 202 measures the Doppler frequency from the radio quality information, and outputs information about the obtained Doppler frequency to the control information data amount calculation unit 203. Here, the Doppler frequency is an index indicating a change in radio quality. When the Doppler frequency is large, it means that the radio quality fluctuation is large as the radio communication apparatus moves.

  The control information data amount calculation unit 203 calculates the control information data amount based on information on the Doppler frequency measured by the Doppler frequency measurement unit 202. Specifically, when the Doppler frequency is large, the control information data amount calculation unit 203 calculates a size necessary for assigning an ACK / NACK signal and the like and radio quality information as the control information data amount. On the other hand, when the Doppler frequency is small, the control information data amount calculation unit 203 calculates the size necessary for assigning only the ACK / NACK signal or the like as the control information data amount.

  That is, when the Doppler frequency is large and the variation in radio quality is large, the physical channel configuration unit 204 described later allocates ACK / NACK signals and the like and radio quality information to the physical channel frame, and the Doppler frequency is small and the radio quality is low. When the fluctuation is small, only the ACK / NACK signal or the like is allocated to the physical channel frame in the physical channel configuration unit 204, and the radio quality information is not allocated to the physical channel frame.

  The communication partner normally performs control of power, modulation scheme, data rate, and the like based on radio quality information transmitted from the radio communication device 200. At this time, if the variation in the radio quality is small, it is considered that there is little need to change the control of the power etc. at the communication partner. Even in the case of controlling power or the like, if the variation in the radio quality is small, the subsequent processing can be performed based on the radio quality information transmitted in the past. Therefore, when the fluctuation of the radio quality is small, it is not necessary to transmit the radio quality information every time, and the resources can be effectively used by not transmitting the information every time.

  The control information data amount calculation unit 203 outputs the obtained control information data amount to the physical channel configuration unit 204.

  Similar to the physical channel configuration unit 107, the physical channel configuration unit 204 allocates control information data and user information data to the physical channel frame based on the control information data amount. The difference between the physical channel configuration unit 204 and the physical channel configuration unit 107 is that the physical channel configuration unit 204 assigns radio quality information to the physical channel frame when the radio quality variation is large.

  As described above, the control information data amount calculation unit 203 calculates, as the control information data amount, the size required to allocate the ACK / NACK signal and the wireless quality information when the variation in the wireless quality is large. . On the other hand, when the variation in radio quality is small, the control information data amount calculation unit 203 calculates the size necessary for allocating the ACK / NACK signal and the like as the control information data amount. Therefore, based on the control information data amount, the physical channel configuration unit 204 can determine whether or not to assign the radio quality information to the frame of the physical channel.

  Next, a method for assigning control information data and user information data to the frame of the physical channel by radio communication apparatus 200 configured as described above will be described.

  A signal transmitted from the communication partner is received via the antenna of the wireless communication apparatus 200 and the RF receiving unit 101, and the obtained received signal is output to the demodulating unit 102 and the wireless quality measuring unit 201.

  Similarly to the first embodiment, the received data is output from the demodulating unit 102 to the subsequent process via the error determining unit 104. Similarly to the first embodiment, an ACK / NACK signal or the like is output from error determination section 104 via ACK / NACK generation section 105 to physical channel configuration section 204.

  On the other hand, the radio quality measurement unit 201 measures the radio quality of the received signal, and information about the obtained radio quality (radio quality information) is output to the Doppler frequency measurement unit 202.

  Then, the Doppler frequency measurement unit 202 measures the Doppler frequency from the radio quality information, and outputs information related to the Doppler frequency to the control information data amount calculation unit 203. As described above, the Doppler frequency is an index indicating a change in radio quality. When the Doppler frequency is large, it means that the radio quality fluctuation is large as the radio communication apparatus moves.

  The control information data amount calculation unit 203 calculates the control information data amount based on the information regarding the Doppler frequency. Specifically, when the Doppler frequency is large, the control information data amount calculation unit 203 calculates the size required to allocate the ACK / NACK signal and the radio quality information as the control information data amount. On the other hand, when the Doppler frequency is small, the control information data amount calculation unit 203 calculates the size necessary for assigning only the ACK / NACK signal or the like as the control information data amount. The obtained amount of control information data is output to the physical channel configuration unit 204.

  The control information data amount is used by the physical channel configuration unit 204 to determine whether or not to assign radio quality information to the physical channel frame.

  Thereafter, similarly to Embodiment 1, the physical channel configuration unit 204 multiplexes control information data and user information data into physical channel frames. Then, the obtained frame data of the physical channel is transmitted via the error correction coding unit 108, the modulation unit 109, the RF transmission unit 110, and the antenna.

  As described above, according to the present embodiment, radio quality information is assigned to physical channel frames as control information data only when radio quality variation is large, and control information data and user information data are continuously transmitted. Assign to physical channel frame. For this reason, even when the fluctuation of the propagation environment is small, there is no wasted field, and transmission can be efficiently performed when viewed as the entire physical channel frame.

  Since the amount of control information data varies depending on the propagation environment, as in the first embodiment, information indicating the delimiter between the control information data and the user information data in the frame format of the physical channel is transmitted. It is necessary to notify the communication partner beforehand. Alternatively, as shown in FIGS. 3A and 3B, in the physical channel configuration unit 204, before the control information data (see FIGS. 3A and 3B) in the same physical channel as the control information data. In b), information related to the control information data amount may be assigned to the control information data amount field) and notified. Thereby, when the amount of control information data fluctuates, the communication partner can identify the delimiter between the control information data and the user information data without notifying the communication partner in advance of the control information data amount.

  The wireless communication apparatus according to the first aspect of the present invention includes a control information data generating unit that generates control information data whose data amount varies, and the generated control information data in the transmission unit area of the physical channel. Allocate user information data to an area of a size equal to the amount of information data, assign user information data to all areas of the physical channel transmission unit other than the area to which the control information data is assigned, and assign the physical channel transmission unit. And a physical channel configuration means to be generated.

  According to this configuration, control information data whose data amount varies is allocated to a region having a size equal to the data amount of the control information data in the physical channel transmission unit region, and the user information data is allocated to the physical channel transmission unit region. Since the physical channel transmission unit is generated by allocating to all areas other than the area to which the control information data is allocated, even if the amount of control information data fluctuates, the physical channel transmission unit area is wasted. It is possible to eliminate the area and improve the transmission efficiency of the entire transmission unit of the physical channel.

  The wireless communication apparatus according to a second aspect of the present invention is the wireless communication apparatus according to the first aspect, wherein the control information data generation means includes a control information data amount calculation unit that calculates a control information data amount of the control information data. The physical channel configuration means allocates the control information data to a control information data area having a size equal to the calculated control information data amount in the transmission unit area of the physical channel, and out of the transmission unit area of the physical channel. A configuration is adopted in which user information data is allocated to a user information data area composed of all areas other than the control information data area and a transmission unit of a physical channel is generated.

  According to this configuration, control information data is allocated to a control information data area having a size equal to the calculated control information data amount in the transmission unit area of the physical channel, and the control information data area in the transmission unit area of the physical channel. Since the user information data is allocated to the user information data area composed of all the areas other than the above, even when the control information data amount varies, it is possible to secure a control information data region equal to the control information data amount.

  According to a third aspect of the present invention, in the first aspect, the wireless communication device includes a control information data amount calculation unit that calculates a control information data amount of the control information data. When the control information data amount is equal to the minimum data amount among the variable data amounts, the physical channel configuration means has a size equal to the minimum data amount in the transmission unit area of the physical channel. The control information data is allocated to the control information data area, and the user information data is allocated to the user information data area including all areas other than the control information data area among the transmission unit areas of the physical channel, and the transmission unit of the physical channel is determined. When the generated control information data amount exceeds the size of the control information data area, the entire control information data area Wherein allocating the control information data to the part of the user information data area, a configuration for generating a transmission unit of the physical channel allocated to user information data to the area to control information data is not allocated out of the user information data area.

  According to this configuration, the control information data amount exceeds the control information data region by using a transmission unit of a fixed physical channel whose control information data region is the smallest data amount among the data amounts that can fluctuate in the control information data region. In some cases, the control information data is allocated to all of the control information data area and a part of the user information data area, and the user information data is allocated to an area of the user information data area to which no control information data is allocated, and the physical channel is transmitted Since the unit is generated, even when the amount of control information data varies, it is possible to eliminate the useless area by using the transmission unit format of the same physical channel and improve the transmission efficiency of the entire physical channel.

  The wireless communication apparatus according to a fourth aspect of the present invention is the wireless communication apparatus according to the first aspect, wherein the control information data generation means includes a control information data amount calculation unit that calculates a control information data amount of the control information data. Generating control information data including information relating to the control information data amount, wherein the physical channel configuring means assigns the control information data amount to the control information data in the physical channel transmission unit area A configuration in which the area is assigned to the area on the head side is adopted.

  According to this configuration, the information related to the amount of control information data is assigned to the head area from the control information data. Therefore, the communication partner can acquire information on the amount of control information data by demodulating the transmission unit of the same physical channel as the physical channel to which the control information data is allocated, and identifies the delimiter between the control information data and the user information data. Therefore, it is not necessary to send information on the amount of control information data from the wireless communication apparatus to the communication partner in advance.

  A wireless communication apparatus according to a fifth aspect of the present invention further includes a propagation environment acquisition unit that acquires a propagation environment in the first aspect, wherein the control information data generation unit includes the acquired propagation environment. Based on this, a configuration for generating control information data is adopted.

  According to this configuration, even when control information data generated based on a propagation environment is allocated to generate a transmission unit of a physical channel, control information data and user information data are transferred from the physical channel without a wasted area. The transmission efficiency of the entire transmission unit of the physical channel can be improved by assigning to the transmission unit.

  The wireless communication apparatus according to a sixth aspect of the present invention is the wireless communication apparatus according to the fifth aspect, wherein the propagation environment acquisition unit includes an error determination unit that determines an error of a received signal, and the control information data generation unit includes: Based on the determined error determination result, an ACK signal or NACK signal and information necessary for retransmission are generated as control information data.

  According to this configuration, even when the amount of control information data fluctuates based on the result of the error determination unit, the control information data and user information data are allocated to the transmission unit of the physical channel without a wasted area, and the physical channel The transmission efficiency of the entire transmission unit can be improved.

  The radio communication apparatus according to a seventh aspect of the present invention is the radio communication apparatus according to the fifth aspect, wherein the propagation environment acquisition means includes a radio quality measurement unit that measures radio quality of a received signal, and the control information data generation means Adopts a configuration for generating control information data including information on the measured radio quality.

  According to this configuration, even when control information data including information related to radio quality of a received signal is allocated to generate a transmission unit of a physical channel, control information data and user information data are transferred to the physical channel without a wasted area. The transmission efficiency of the entire physical channel transmission unit can be improved.

  The wireless communication apparatus according to an eighth aspect of the present invention is the wireless communication apparatus according to the seventh aspect, wherein the control information data generation means includes a Doppler frequency measurement unit that measures a Doppler frequency based on the acquired wireless quality, Only when the measured Doppler frequency is equal to or higher than a predetermined threshold, control information data including information on radio quality is generated.

  According to this configuration, only when the Doppler frequency is equal to or higher than the predetermined threshold, the information about the radio quality is included in the control information data. Therefore, when the Doppler frequency is small and the radio quality variation is small, the control information data amount is small. Since the user information data can be allocated by the reduced amount, the transmission efficiency of the entire physical channel transmission unit can be improved.

  A wireless communication method according to a ninth aspect of the present invention includes a control information data generation step of generating control information data whose data amount varies, and the generated control information data is transmitted from the physical channel transmission unit area. Allocate user information data to an area of a size equal to the amount of information data, assign user information data to all areas of the physical channel transmission unit other than the area to which the control information data is assigned, and assign the physical channel transmission unit. And a physical channel forming step to be generated.

  According to this configuration, control information data whose data amount varies is allocated to a region having a size equal to the data amount of the control information data in the physical channel transmission unit region, and the user information data is allocated to the physical channel transmission unit region. Since the physical channel transmission unit is generated by allocating to all areas other than the area to which the control information data is allocated, even if the amount of control information data fluctuates, the physical channel transmission unit area is wasted. It is possible to eliminate the area and improve the transmission efficiency of the entire transmission unit of the physical channel.

  The wireless communication apparatus and wireless communication method of the present invention can efficiently transmit control information data and user information data, and are applied to a mobile communication system in which the amount of control information data varies. It is useful for such as.

1 is a block diagram showing a configuration of a wireless communication apparatus according to Embodiment 1 of the present invention. (A) The figure which shows an example of the frame format of the physical channel which concerns on Embodiment 1 (b) The figure which shows an example of the frame format of the physical channel after the control information field expansion which concerns on Embodiment 1 (A) The figure which shows an example of the frame format of the physical channel which concerns on Embodiment 1 (b) The figure which shows an example of the frame format of the physical channel after the control information field expansion which concerns on Embodiment 1 FIG. 2 is a block diagram showing a configuration of a wireless communication apparatus according to Embodiment 2 of the present invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 101 RF reception part 102 Demodulation part 103 Error correction decoding part 104 Error determination part 105 ACK / NACK generation part 106 Control information data amount calculation part 107 Physical channel structure part 108 Error correction encoding part 109 Modulation part 110 RF transmission part 201 Wireless quality Measurement unit 202 Doppler frequency measurement unit 203 Control information data amount calculation unit 204 Physical channel configuration unit

Claims (9)

Control information data generating means for generating control information data whose data amount varies;
The generated control information data is allocated to an area having a size equal to the data amount of the control information data in the transmission unit area of the physical channel, and the control information data is allocated to the user information data in the transmission unit area of the physical channel. Physical channel configuration means for allocating to all areas other than the allocated area and generating a transmission unit of the physical channel;
A wireless communication apparatus comprising: The control information data generating means
A control information data amount calculation unit for calculating a control information data amount of the control information data,
The physical channel configuration means is
The control information data is allocated to a control information data area having a size equal to the calculated control information data amount in the transmission unit area of the physical channel, and all of the physical channel transmission unit areas other than the control information data area are allocated. 2. The radio communication apparatus according to claim 1, wherein user information data is allocated to a user information data area consisting of a plurality of areas to generate a transmission unit of a physical channel. The control information data generating means
A control information data amount calculation unit for calculating a control information data amount of the control information data,
The physical channel configuration means includes:
When the control information data amount is equal to the smallest data amount among the variable data amounts, the control information is transferred to a control information data region having a size equal to the smallest data amount in the transmission unit region of the physical channel. Data is allocated, user information data is allocated to a user information data area consisting of all areas other than the control information data area in the physical channel transmission unit area, and a physical channel transmission unit is generated,
When the control information data amount exceeds the size of the control information data area, the control information data is allocated to all of the control information data area and a part of the user information data area, 2. The radio communication apparatus according to claim 1, wherein user information data is allocated to an area to which control information data is not allocated to generate a physical channel transmission unit. The control information data generating means
A control information data amount calculation unit for calculating a control information data amount of the control information data,
Generating control information data including information on the amount of control information data;
The physical channel configuration means includes:
2. The radio communication apparatus according to claim 1, wherein the information related to the amount of control information data is allocated to an area on the head side of an area to which the control information data is allocated in an area of a transmission unit of a physical channel. A propagation environment acquisition means for acquiring the propagation environment;
The control information data generating means
The wireless communication apparatus according to claim 1, wherein the control information data is generated based on the acquired propagation environment. The propagation environment acquisition means includes
An error determination unit for determining an error in the received signal,
The control information data generating means
6. The radio communication apparatus according to claim 5, wherein an ACK signal or a NACK signal and information necessary for retransmission are generated as control information data based on the determined error determination result. The propagation environment acquisition means includes
A radio quality measurement unit for measuring radio quality of the received signal,
The control information data generating means
6. The wireless communication apparatus according to claim 5, wherein control information data including information on the measured wireless quality is generated. The control information data generating means
A Doppler frequency measurement unit that measures the Doppler frequency based on the acquired radio quality,
8. The wireless communication apparatus according to claim 7, wherein control information data including information related to wireless quality is generated only when the measured Doppler frequency is equal to or higher than a predetermined threshold. A control information data generation step for generating control information data in which the amount of data fluctuates;
The generated control information data is allocated to an area having a size equal to the data amount of the control information data in the transmission unit area of the physical channel, and the control information data is allocated to the user information data in the transmission unit area of the physical channel. A physical channel configuration step for generating a physical channel transmission unit by allocating to all areas other than the designated area;
A wireless communication method comprising:

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