JP4316165B2 - Wireless communication device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention provides various types of data using transport format combination indicators (TFCI) standardized in next generation mobile communication system IMT-2000 (International Mobile Telecommunications 2000) using wideband code division multiple access. The present invention relates to a wireless communication apparatus that transmits and receives in combination.
[0002]
[Prior art]
In recent years, with the increasing demand for multimedia communication, a communication service for transmitting and receiving various types of data in combination is being provided. In the IMT-2000 system, for example, voice data, image data, unrestricted data, packet data, and the like are combined and transmitted by combining a plurality of data of communication services having different transmission error rates.
[0003]
In the IMT-2000 system, this combination information is basically displayed by the transport format combination index (TFCI). Hereinafter, this “transport format combination index (TFCI)” is simply referred to as “combination index (TFCI)”.
[0004]
The transmission side transmits a combination of transmission data in various formats, and notifies the reception side of information indicating the combination of the formats of the transmission data as a combination index (TFCI). The reception side uses the combination index (TFCI) as a basis. In addition, it is possible to instantly determine the combination of formats of transmission data, and to deal with flexible multimedia services.
[0005]
However, in other words, if the combination index (TFCI) is received in error, the format related to the entire frame of the transmitted data is erroneously recognized, and the data of the entire frame is not received correctly. ) Is important information for maintaining communication quality.
[0006]
Here, an outline of the combination index (TFCI) will be described. The transmission apparatus of the IMT-2000 system conforms to the standard of 3GPP (Third Generation Partnership Project) TS series (TS25.212, etc.) in units of frames defined as a single channel data transmission time interval (TTI). Divide and send data. Then, the receiving device determines the channel data rate for each frame, and decodes the received data based on the determined rate. This rate determination uses a combination index (TFCI) transmitted from the transmission side.
[0007]
A specific example of the combination index (TFCI) is shown in FIG. The transmission side maps a combination index (TFCI) corresponding to a combination of transmission data in accordance with the 3GPPTS25.212 standard, and transmits the mapped code for each frame by a radio signal. On the receiving side, the code of the mapped combination index (TFCI) is received, the combination of the data transfer format is determined based on the combination index (TFCI) detected and determined by demapping the code, and the received data Perform decryption.
[0008]
FIG. 11 shows functional blocks of the transmitter and receiver of the IMT-2000 system. The transmission apparatus 11-10 includes an interleaving unit 11-11 that changes the data arrangement for each transmission data (data # 1 to data #N). ₁ ~ 11-11 _N And a combination index (TFCI) that generates a combination index (TFCI) according to the control of the synthesis control unit 11-13 and a data synthesis unit 11-12 that combines the transmission data subjected to the interleave processing according to the control of the synthesis control unit 11-13. TFCI) generator 11-14, and transmitter 11-15 that transmits the combination of the combined transmission data and the combination index (TFCI) by radio signal.
[0009]
On the other hand, the reception device 11-20 includes a receiver 11-21 that receives a radio signal transmitted from the transmission device 11-10, and a combination index (TFCI) determination unit that detects and determines a combination index (TFCI) from the radio signal. 11-22 and based on the determined combination index (TFCI), a data separator 11-23 that separates the combined received data into individual data, and restores the array for each separated individual data, Deinterleaving section 11-24 for outputting data # 1 to data #N ₁ ~ 11-24 _N And.
[0010]
When transmitting a transmission data block subject to interleaving processing exceeding one frame, the wireless transmission device of the IMT-2000 system performs interleaving over a plurality of frames. For example, when a 40-ms transmission data block with an interleave length of 400 bits is transmitted in a 10-ms frame, the transmission data block is divided into 100-bit, 10-ms frame data, and interleaved for each frame for transmission.
[0011]
[Problems to be solved by the invention]
During the interleaving period of the transmission data block, the combination index (TFCI) of each frame is constant information. However, if the combination index (TFCI) is detected and determined independently for each frame as in the conventional case, if it is erroneously determined for one frame, the data during the interleaving period over all transmission data blocks is synthesized. In this case, the entire transmission data block cannot be correctly restored.
[0012]
FIG. 10B shows an example in which a determination error occurs in the reception combination index (TFCI). In the figure, it is assumed that the correspondence between each combination index (TFCI) for each transmitted frame and the combination of the data is as shown in FIG. From the transmission side, a combination index (TFCI) “2” and a combination of data corresponding thereto (transmission data 400 bits only for data # 1) are transmitted.
[0013]
Assuming that the interleaving period of this transmission data block is 40 ms, the transmitting side interleaves only the transmission data of data # 1 every 10 ms frame and transmits it. At this time, the combination index (TFCI) “2” is correctly detected up to the frame (ii) in the 20 ms section on the receiving side, but the combination index (TFCI) is erroneously “1” in the frame (iii) in the 30 ms section. In this frame section, it is determined that the bit length of data # 1 is 100/4 = 25 bits, and when data for all interleave periods of 0 to 40 ms is finally combined, the data block length Is determined as 100 + 100 + 25 + 100 = 325 bits, and the received data is erroneously decoded.
[0014]
In the present invention, when data having an interleave length exceeding one frame is received, a combination index (TFCI) used for reception processing for each frame is more correctly detected, and data reception / decoding processing in an interleaving period is performed. The purpose is to improve the accuracy.
[0015]
[Means for Solving the Problems]
The wireless communication device of the present invention is (1) a combination for detecting a transport format combination index (TFCI) transmitted from the transmission side for each frame in the wireless communication device of the wideband code division multiple access system (IMT-2000). Index detection means, combination index holding means for holding transport format combination index (TFCI) sequentially detected for each frame, and transport format combination index (TFCI) sequentially detected and held over a plurality of frames Combination index determination means for determining a transport format combination index (TFCI) having higher likelihood in order from the top, in the process of receiving data having an interleave length exceeding one frame, the combination index determination means Transport format set determined by According allowed indicators (TFCI), characterized in that successively performs processing for each frame.
[0016]
(2) The combination index determination means extracts one transport format combination index (TFCI) sequentially from the head of the transport format combination index (TFCI) detected and held over a plurality of frames, and determines one transport format combination index ( TFCI) is determined.
[0017]
(3) The combination index determination means receives the transport format combination index (TFCI) reception signal in order from the head of the transport format combination index (TFCI) detected and held over a plurality of frames. The reception quality is compared and contrasted, and a transport format combination index (TFCI) having a high reception quality is selected and determined.
[0018]
Further, (4) the combination index determining means is configured so that a predetermined number or more of the same transport format combination is sequentially performed from the head of the transport format combination index (TFCI) detected and held over a plurality of frames. An index (TFCI) is detected, and the detected transport format combination index (TFCI) is determined as a transport format combination index (TFCI) of a subsequent frame.
[0019]
(5) The combination index determination means is determined based on the function of determining by majority vote and the reception quality of the received signal in order from the first transport format combination index detected and held over a plurality of frames. Or a function of detecting and determining a predetermined number or more of the same transport format combination indices that are consecutive, and determining at a combination of at least two functions.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 shows functional blocks of a first embodiment of the present invention. In this embodiment, a combination index (TFCI) is determined by majority vote from those sequentially detected. In the embodiment of the present invention described below, the configuration on the transmission side is the same as that of the conventional one shown in FIG. 11 and is omitted, and only the configuration on the reception side is shown.
[0021]
In FIG. 1, a signal received by an antenna is demodulated by a receiver 11-21, a data code is input to a data separator 11-23, and a combination index (TFCI) code is a combination index (TFCI) detector. 1-1. The combination index (TFCI) detection unit 1-1 detects the combination index (TFCI) by demapping the code of the combination index (TFCI), and uses the combination index (TFCI) holding unit 1-2. Output to. The combination index (TFCI) holding unit 1-2 holds the combination index (TFCI) of each frame detected so far within the interleaving period.
[0022]
The majority processing unit 1-3 performs majority processing on the combination index (TFCI) of each frame detected so far within the interleaving period, and uses the largest combination index (TFCI) for the combination of the current frame. It is determined as an index (TFCI). The data separation unit 11-23 performs data separation processing on the received data of the frame according to the determined combination index (TFCI).
[0023]
FIG. 2 shows an operation example of the first embodiment of the present invention. As shown in the figure, in the first frame (i) in the 10 ms section, the combination index (TFCI) “2” detected in this frame is determined as the combination index (TFCI), and according to the combination index (TFCI). Perform data separation processing.
[0024]
In the second frame (ii) of the next 20 ms section, by the majority process of the combination index (TFCI) “2” detected in this frame and the combination index (TFCI) “2” detected in the first frame The combination index (TFCI) “2” is determined, and data separation processing is performed according to the combination index (TFCI).
[0025]
In the third frame (iii) of the next 30 ms section, the combination index (TFCI) “1” detected in this frame and the combination index (TFCI) “2” detected in the first and second frames The combination index (TFCI) “2” is determined by the majority process, and the data separation process is performed according to the combination index (TFCI).
[0026]
In the fourth frame (iv) of the next 40 ms section, the combination index (TFCI) “2” detected in this frame and the combination index (TFCI) “2” and 3 detected in the first and second frames are detected. The combination index (TFCI) “2” is determined by majority processing of the combination index (TFCI) “1” detected in the first frame, and data separation processing is performed according to the combination index (TFCI).
[0027]
FIG. 3 shows functional blocks of the second embodiment of the present invention. In this embodiment, the combination index (TFCI) is determined according to the reception quality from the sequentially detected ones. In the figure, a signal received by an antenna is demodulated by a receiver 11-21, a combination index (TFCI) is detected by a combination index (TFCI) detector 1-1, and a frame within an interleaving period of one data block is detected. The configuration in which the combination index (TFCI) detected so far is held by the combination index (TFCI) holding unit 1-2 is the same as that in the embodiment shown in FIG.
[0028]
The reception quality measurement unit 3-1 measures the reception quality of each frame based on the reception level of the received signal and outputs the reception quality measurement result to the combination index (TFCI) selection unit 3-2. The combination index (TFCI) selection unit 3-2 compares and contrasts the reception quality of each frame received so far within the interleaving period of one data block, and the combination index (TFCI) of the frame having the highest reception quality among them. And is determined as the combination index (TFCI) of the current frame. The data separation unit 11-23 performs data separation processing on the received data of the current frame in accordance with the combination index (TFCI) determined by the combination index (TFCI) selection unit 3-2.
[0029]
FIG. 4 shows an operation example of the second embodiment of the present invention. As shown in the figure, in the first frame (i) in the 10 ms section, the combination index (TFCI) “2” detected in this frame is determined as the combination index (TFCI), and according to the combination index (TFCI). Perform data separation processing.
[0030]
In the second frame (ii) of the next 20 ms section, even if the combination index (TFCI) “1” is detected, the reception quality (reception level) “−95 dBm” of this frame and the reception quality of the first frame ( (Comparison and reception level) “−90 dBm”, the combination index (TFCI) “2” detected in the first frame with higher reception quality (reception level) is selected, and the data according to this combination index (TFCI) Perform separation processing.
[0031]
In the third frame (iii) of the next 30 ms section, the combination index (TFCI) “2” is detected, but the reception quality (reception level) “−100 dBm” of this frame and the highest reception so far. The quality (reception level) “−90 dBm” is compared and contrasted, the combination index (TFCI) “2” detected in the first frame with the highest reception quality (reception level) is selected, and this combination index (TFCI) Data separation processing is performed according to
[0032]
In the fourth frame (iv) of the next 40 ms section, the combination index (TFCI) “1” is detected. The reception quality (reception level) “−95 dBm” of this frame and the highest reception so far. The quality (reception level) “−90 dBm” is compared and contrasted, the combination index (TFCI) “2” detected in the first frame with the highest reception quality (reception level) is selected, and this combination index (TFCI) Data separation processing is performed according to
[0033]
Next, as a third embodiment of the present invention, the combination index (TFCI) selection unit 3-2 shown in FIG. 3 selects each frame according to the reception quality for each frame within the interleave period received so far. The frame combination index (TFCI) may be weighted, and the combination index (TFCI) of the current frame may be determined based on the magnitude of the weight.
[0034]
The operation for determining the combination index (TFCI) by weighting according to the reception quality in the third embodiment will be described with reference to the operation example shown in FIG. 5. In FIG. 5, the highest reception quality is “−90”. The first frame (i) in the 10 ms section and the third frame (iii) in the 30 ms section. As one method of adding weights based on the reception level, the reception level of each frame for the same combination index (TFCI) The average value is added as a weight value, and the combination index (TFCI) of the current frame is selected using the weight value.
[0035]
In the case of the example in FIG. 5, in the first frame (i) of the 10 ms section, the combination index (TFCI) “2” detected in this frame is determined as the combination index (TFCI), and according to this combination index (TFCI) Perform data separation processing.
[0036]
In the second frame (ii) of the next 20 ms section, the combination index (TFCI) “1” is detected, the weight value “−105 dBm” for the combination index (TFCI) “1”, and the combination index (TFCI) “2”. Is compared with the weight value “−90 dBm” for “,” a combination index (TFCI) “2” having a higher weight value is selected, and data separation processing is performed according to this combination index (TFCI).
[0037]
In the third frame (iii) of the next 30 ms section, the combination index (TFCI) “1” is detected. The weight value for the combination index (TFCI) “1” at this time is ((−105) + (− 90)) / 2 = −97.5 dBm, whereas the weight value for the combination index (TFCI) “2” is −90 dBm, which are compared and contrasted, and the combination index with a higher weight value ( TFCI) “2” is selected, and data separation processing is performed according to this combination index (TFCI).
[0038]
In the fourth frame (iv) of the next 40 ms section, the combination index (TFCI) “2” is detected. The weight value for the combination index (TFCI) “1” at this time is ((−105) + (− 90)) / 2 = −97.5 dBm, whereas the weight value for the combination index (TFCI) “2” is ((−90) + (− 95)) / 2 = −92.5 dBm These are compared and contrasted, a combination index (TFCI) “2” having a higher weight value is selected, and data separation processing is performed according to this combination index (TFCI).
[0039]
Next, as a fourth embodiment of the present invention, when determining the combination index (TFCI) according to the reception quality, the reception quality is determined using the signal-to-noise and interference power ratio (SIR), and the combination index (TFCI) is determined. ).
[0040]
FIG. 6 shows functional blocks of this embodiment. The signal received by the antenna is demodulated by the receiver 11-21, the combination index (TFCI) detection unit 1-1 detects the combination index (TFCI), and it has been detected so far within the interleaving period of one data block. The configuration in which the combination index (TFCI) is held by the combination index (TFCI) holding unit 1-2 is the same as that in the embodiment shown in FIG.
[0041]
The SIR measurement unit 6-1 measures the signal-to-noise and interference power ratio (SIR) for each frame of the received signal, and outputs the measurement result to the combination index (TFCI) selection unit 6-2. The combination index (TFCI) selection unit 6-2 compares and contrasts the signal-to-noise and interference power ratio (SIR) of each frame received so far within the interleaving period of one data block, and the highest signal pair is selected. A combination index (TFCI) of a frame of noise and interference power ratio (SIR) is selected and determined as a combination index (TFCI) of the current frame. The data separation unit 11-23 performs data separation processing on the received data of the current frame in accordance with the combination index (TFCI) determined by the combination index (TFCI) selection unit 6-2.
[0042]
Next, as a fifth embodiment of the present invention, it is possible to determine the reception quality using information detected when decoding the combination index (TFCI) and determine the combination index (TFCI). . FIG. 7 shows functional blocks of this embodiment. The signal received by the antenna is demodulated by the receiver 11-21, the combination index (TFCI) detection unit 7-1 detects the combination index (TFCI), and has been detected so far within the interleaving period of one data block. The configuration in which the combination index (TFCI) is held by the combination index (TFCI) holding unit 1-2 is the same as that in the embodiment shown in FIG.
[0043]
The combination index (TFCI) detection unit 7-1 detects the combination index (TFCI) by demapping the code of the received combination index (TFCI), and is obtained when the combination index (TFCI) is detected. Combination index (TFCI) detection information such as soft decision information or likelihood information is output to the combination index (TFCI) selection unit 7-2 as information indicating reception quality.
[0044]
Based on the combination index (TFCI) detection information for each frame in the interleave period received so far, the combination index (TFCI) selection unit 7-2 combines the index (TFCI) for the detection information indicating the highest quality. Select. Alternatively, the combination index (TFCI) is selected by weighting the combination index (TFCI) with the combination index (TFCI) detection information. Thus, the combination index (TFCI) of the current frame is determined, and the data separation unit 11-23 receives the received data of the current frame according to the combination index (TFCI) determined by the combination index (TFCI) selection unit 7-2. Data separation processing is performed on
[0045]
Next, as a sixth embodiment of the present invention, a configuration in which the same continuous combination index (TFCI) detected so far within the interleave period of one data block is determined as the combination index (TFCI) of the current frame. It can be. FIG. 8 shows functional blocks of this embodiment.
[0046]
A signal received by an antenna is demodulated by a receiver 11-21, a combination index (TFCI) detector 1-1 detects a combination index (TFCI), and combinations detected so far within an interleaving period of one data block The configuration in which the index (TFCI) is held by the combination index (TFCI) holding unit 1-2 is the same as that in the embodiment shown in FIG.
[0047]
The combination index (TFCI) for each frame held in the combination index (TFCI) holding unit 1-2 is output to the combination index (TFCI) counter 8-1, and the combination index (TFCI) counter 8-1 is the same. The number of times the combination index (TFCI) is continuously input is counted, and the count number is output to the combination index (TFCI) selection unit 8-2.
[0048]
The combination index (TFCI) selection unit 8-2 selects a combination index (TFCI) in which the number of consecutive frames of the same combination index (TFCI) output from the combination index (TFCI) counter 8-1 exceeds a predetermined number of frames. As a combination index (TFCI). The data separation unit 11-23 performs data separation processing on the received data of the current frame in accordance with the combination index (TFCI) determined by the combination index (TFCI) selection unit 8-2.
[0049]
The operation of the sixth embodiment will be described with reference to the example shown in FIG. In this operation example, the number of times the same combination index (TFCI) is continuously input, that is, the number of protection stages is set to “2”. In the first frame (i) of the 10 ms section, the combination index (TFCI) “2” is detected, and the combination index (TFCI) counter 8-1 sets the count value “1”.
[0050]
Since the combination index (TFCI) “2” is also detected in the second frame (ii) of the next 20 ms section, the combination index (TFCI) counter 8-1 increments the count value by +1 and count value “2”. It becomes. If this counter value matches the predetermined number of protection stages “2”, the combination index (TFCI) in the interleave period after this frame is determined as this combination index (TFCI) “2”.
[0051]
The first to sixth embodiments of the present invention in determining the combination index (TFCI) described above are appropriately combined, and when determining the combination index (TFCI) according to each embodiment, the priority order is determined and finally determined. It can also be set as the structure to do. In addition, it goes without saying that various modifications can be made without departing from the spirit of the present invention.
[0052]
(Supplementary note 1) In a wireless communication device of a wideband code division multiple access system, combination index detection means for detecting a transport format combination index transmitted for each frame from the transmission side, and transport detected sequentially for each frame Combination index holding means for holding a format combination index, and a combination for determining a transport format combination index having a higher likelihood in order from the top among transport format combination indices sequentially detected and held over a plurality of frames In the process of receiving data having an interleave length exceeding one frame, processing for each frame is sequentially performed according to the transport format combination index determined by the combination index determination unit. Wireless communication device.
(Additional remark 2) The said combination parameter | index determination means is to extract one transport format combination parameter | index sequentially from the head of the transport format combination parameter | index detected and hold | maintained over several frames, and to determine one transport format combination parameter | index by majority vote. The wireless communication apparatus according to Supplementary Note 1, wherein the wireless communication apparatus is characterized.
(Additional remark 3) The said combination parameter | index determination means compares and contrasts the reception quality of the received signal of this transport format combination parameter | index in order from the head of the transport format combination parameter | index detected and hold | maintained over several frames. 2. The wireless communication apparatus according to appendix 1, wherein a transport format combination index having a high reception quality is selected and determined.
(Supplementary Note 4) The combination index determination means performs comparison and contrast by weighting the transport format combination index detected and held over a plurality of frames according to the reception quality, and compares and contrasts the transport format combination index. The wireless communication apparatus according to appendix 3, wherein a port format combination index is selected and determined.
(Supplementary note 5) The wireless communication apparatus according to supplementary note 3, wherein the combination index determining unit compares and contrasts the reception quality based on the signal-to-noise and interference power ratio of the reception signal of the transport format combination index.
(Supplementary note 6) The radio communication apparatus according to supplementary note 3, wherein the combination index determination unit compares and contrasts as reception quality based on likelihood information detected when a transport format combination index is decoded. .
(Additional remark 7) The said combination parameter | index determination means detects a predetermined number or more of the same transport format combination parameter | index sequentially from the head of the transport format combination parameter | index detected and hold | maintained over the some flame | frame. The wireless communication apparatus according to appendix 1, wherein the detected transport format combination index is determined as a transport format combination index of a subsequent frame.
(Additional remark 8) The said combination parameter | index determination means determines in order from the head thing of the transport format combination parameter | index detected and hold | maintained over the some flame | frame based on the function determined by majority, and the reception quality of a received signal The wireless communication apparatus according to appendix 1, wherein the function is determined by combining at least two functions of a function or a function of detecting and determining a predetermined number or more of the same transport format combination index.
[0053]
【The invention's effect】
As described above, according to the present invention, when interleave length data exceeding one frame is received, a combination index (TFCI) used for reception processing for each frame is determined independently for each frame. Rather than determining a combination index (TFCI) having a higher likelihood from a combination index (TFCI) detected and held sequentially over a plurality of frames by majority decision or based on reception quality. Accordingly, it is possible to improve the reception accuracy of the combination index (TFCI) during the interleaving period in one data block, and it is possible to improve the data reception accuracy during the entire interleaving period.
[0054]
In the present invention, the transport format combination index having higher likelihood is sequentially determined from the top of the combination indices (TFCI) sequentially detected and held over a plurality of frames. Thus, it is possible to quickly perform reception / decoding processing for each frame without a delay over the entire interleaving period.
[Brief description of the drawings]
FIG. 1 is a diagram showing functional blocks according to a first embodiment of the present invention.
FIG. 2 is a diagram illustrating an operation example of the first embodiment of the present invention.
FIG. 3 is a diagram showing functional blocks according to a second embodiment of the present invention.
FIG. 4 is a diagram illustrating an operation example of a second embodiment of the present invention.
FIG. 5 is a diagram illustrating an operation example of a third embodiment of the present invention.
FIG. 6 is a diagram illustrating functional blocks according to a fourth embodiment of the present invention.
FIG. 7 is a diagram illustrating functional blocks according to a fifth embodiment of the present invention.
FIG. 8 is a diagram illustrating functional blocks according to a sixth embodiment of the present invention.
FIG. 9 is a diagram illustrating an operation example of a sixth embodiment of the present invention.
FIG. 10 is a diagram illustrating an example of a combination index (TFCI) and an example of transmission / reception thereof.
FIG. 11 is a diagram illustrating functional blocks of a transmission device and a reception device of the IMT-2000 system.
[Explanation of symbols]
1-1 Combination index (TFCI) detector
1-2 Combination index (TFCI) holding unit
1-3 Majority processing section
11-21 Receiver
11-23 Data separator
11-24 ₁ ~ 11-24 _N Deinterleave section

Claims (5)

In a wireless communication device of a wideband code division multiple access system,
A combination index detection means for detecting a transport format combination index transmitted from the transmission side for each frame;
Combination index holding means for holding a transport format combination index sequentially detected for each frame;
A combination index determining means for sequentially determining a transport format combination index having a higher likelihood from the transport format combination index sequentially detected and held over a plurality of frames;
A wireless communication apparatus characterized in that, in the process of receiving data having an interleave length exceeding one frame, the process for each frame is sequentially performed according to the transport format combination index determined by the combination index determination means. The combination index determination means extracts one transport format combination index in order from the top of the transport format combination indices detected and held over a plurality of frames, and determines one transport format combination index by majority. Item 2. The wireless communication device according to Item 1. The combination index determining means compares and contrasts the reception quality of the received signal of the transport format combination index in order from the head of the transport format combination index detected and held over a plurality of frames. The wireless communication apparatus according to claim 1, wherein a transport format combination index having a high value is selected and determined. The combination index determining means detects a predetermined number or more of the same transport format combination index in order from the head of the transport format combination index detected and held over a plurality of frames. The wireless communication apparatus according to claim 1, wherein the transport format combination index is determined as a transport format combination index for subsequent frames. The combination index determining means is a function that is determined by majority decision in order from the first transport format combination index detected and held over a plurality of frames, a function that is determined based on reception quality of a received signal, or a predetermined number 2. The wireless communication apparatus according to claim 1, wherein at least two functions of the functions of detecting and determining a plurality of consecutive transport format combination indices that are equal to or greater than a number are determined in combination.

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