JP2007209033A - Radio communication apparatus and transmission method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To improve transmission data distribution efficiency as compared to the prior art. <P>SOLUTION: An information distribution device according to the present invention distributes different information for each predetermined group to which a mobile terminal belongs. The device is constituted of a channel selection means for selecting an information channel for transmitting transmission data from among a plurality of information channels, and a transmission means for transmitting the transmission data utilizing the selected information channel. The channel selection means selects the information channel to transmit transmission data of different destinations through different information channels. The transmission means transmits, on a control channel, information regarding the presence/absence of transmission data, the information channel to be used when there are transmission data, and a data length of the transmission data, for each group. The control channel is constituted of a plurality of time slots associated with groups, respectively. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to the technical field of distributing the same information to a plurality of mobile terminals, and more particularly to a radio communication apparatus and a transmission method.

  In this type of technical field, in order to distribute information to a plurality of mobile terminals, such as broadcast that broadcasts to all mobile terminals, or multicast that broadcasts only to mobile terminals belonging to a predetermined group, Technology is used.

  FIG. 1 is a conceptual diagram for illustrating an example of information distribution by conventional multicast. FIG. 1 depicts a control channel 10 comprising time slots assigned to each multicast group (group) and a message channel 12 for actually distributing information in relation to this control channel 10. Yes. The control channel 10 is formed such that a super frame 14 repeats, and each super frame 14 includes N time slots from 0 to N-1. N (> 0) is a number set according to the type of distribution information, and defines the number of groups to which the mobile terminal can belong.

  FIG. 2 shows an example of the correspondence between time slot numbers and groups (information contents). For example, if it is desired to distribute information related to weather forecasts, the mobile terminal needs to join a multicast group with slot number 1 in advance.

  Returning to FIG. 1, the mobile terminal needs to receive information on the control channel related to the group to which it belongs, but this information is transmitted only through a predetermined time slot. For this reason, the mobile terminal receives control data from the control channel only during the time slot period of its own group while saving battery by performing intermittent reception. For example, if it belongs to the weather forecast group, the signal from the control channel is received only during the time slot 1 and not received during the other time slots. The control channel contains information indicating the presence or absence of distribution information. When the mobile terminal extracts the information and confirms that there is no distribution information, it prepares for the reception of the next control data from the control channel. Return to the standby state. When it is confirmed that the distribution information is present, the distribution information transmitted through the message channel 12 is received after a predetermined period (time offset) has elapsed from the time slot 1 (after time t1). Similarly, mobile terminals belonging to other groups can also receive distribution of desired information using the control channel 10 and message channel 12 that notify the presence / absence of distribution information (for example, time for baseball information). After t2, the stock price information is distributed after time t3).

  Japanese Laid-Open Patent Publication No. 2000-224648 relating to this type of conventional information distribution describes that a broadcast channel dedicated for broadcasting using a predetermined time slot among time slots prepared for a control channel and a communication (message) channel. Is formed, and broadcast data is transmitted via the broadcast channel, thereby transmitting broadcast data to a plurality of mobile station devices all at once.

  However, in such a conventional technique, the time slot used for information distribution uses a predetermined fixed signal format. Therefore, the amount of information to be distributed and the transmission time tend to be limited to a predetermined time slot. In order to distribute information that cannot be accommodated in a predetermined time slot, the information is divided into time slots, transmitted using the time slot of its own group that arrives at each super frame 14, and recombined on the receiving side. However, an extra work of dividing and synthesizing information is required. This is disadvantageous for a mobile terminal that needs to consider power consumption. In addition, there is a problem that it takes a lot of time until all information reaches the receiving side.

  On the other hand, instead of transmitting information divided into superframes, information relating to a weather forecast exceeding the length of a predetermined time slot, for example, originally distributed in one time slot, is divided into two time slots (time t1 If it is allowed to distribute using a time between t3 and t3), the weather forecast can be continuously distributed without being divided. However, instead, the information distribution of the baseball information (time slot 2) cannot be started from the original transmission time t2 (since the weather forecast is distributed), so the time slot 2 in the next super frame Information cannot be distributed until the time (t2). For this reason, when trying to distribute more information than a predetermined amount of information, there is a problem that the period for information distribution in itself or in another group becomes longer, and the distribution efficiency is not necessarily improved.

  On the other hand, the information to be distributed does not always require communication resources for one time slot. However, even when information less than one time slot is distributed, a predetermined fixed signal format is used for information distribution, and therefore communication resources are allocated in units of time slots. For this reason, there is a problem that the distribution efficiency is not always good from the viewpoint of the utilization efficiency of communication resources.

  An object of the present invention is to improve the distribution efficiency of transmission data as compared with the prior art. This object is solved by the means described below.

In one aspect of the present invention, an information distribution apparatus that distributes different information for each predetermined group to which a mobile terminal belongs is used. Information distribution device
Buffer means for receiving transmission data addressed to each group;
Scheduler means for selecting an information channel for transmitting transmission data from a plurality of information channels;
The scheduler means is configured to select an information channel so as to transmit transmission data of different destinations through different information channels, using transmission means for transmitting transmission data using the selected information channel,
The transmission means is formed so as to transmit information on the presence / absence of transmission data, an information channel to be used when there is transmission data, and information on the data length of transmission data for each group using a control channel, It is an information distribution device comprising a plurality of time slots associated with each group.

In one aspect of the present invention, an information distribution apparatus that distributes different information for each predetermined group to which a mobile terminal belongs is used. Information distribution device
Buffer means for receiving transmission data addressed to each group;
Scheduler means for determining a transmission time for transmitting transmission data to each group;
The transmission means transmits transmission data through an information channel according to the contents determined by the scheduler means, and the scheduler means transmits transmission data addressed to each group according to the data length of the transmission data stored in the buffer means. Formed to determine the
The transmission means is configured to transmit information on presence / absence of transmission data, transmission time when there is transmission data, and data length of transmission data for each group through a control channel. It is an information distribution apparatus consisting of a plurality of time slots associated with.

  According to one aspect of the present invention, a control channel composed of a plurality of time slots and an information channel for distributing distribution information assigned to the time slot are provided, and the time slot of the control channel distributes corresponding distribution information. There is provided an information distribution apparatus characterized by having identification information for specifying the information channel. The distribution information of the information channel can be sent after a predetermined time offset has elapsed with respect to the corresponding time slot of the control channel. The control channel identification information can include at least a channel number and a data length.

  According to an aspect of the present invention, a control channel including a plurality of time slots and an information channel for distributing distribution information allocated to the time slots are provided, and corresponding distribution information is distributed to the time slots of the control channel. There is provided an information distribution apparatus characterized by having identification information for specifying a specific time. The identification information may include information on a time offset from a corresponding time slot of the control channel so that a plurality of types of distribution information do not overlap.

According to an aspect of the present invention, an information distribution device that distributes different information for each predetermined group to which a mobile terminal belongs is used. Information distribution device
Channel selection means (scheduler means) for selecting an information channel for transmitting transmission data from a plurality of information channels;
A transmission means for transmitting transmission data using the selected information channel, wherein the channel selection means is configured to select an information channel so as to transmit transmission data of a different destination through different information channels;
The transmission means is formed so as to transmit information on the presence / absence of transmission data, an information channel to be used when there is transmission data, and information on the data length of transmission data for each group using a control channel, There is provided an information distribution apparatus comprising a plurality of time slots associated with each of the groups.

According to the present invention, an information distribution device that distributes different information for each predetermined group to which a mobile terminal belongs,
Transmission timing determining means (scheduler means) for determining transmission time for transmitting transmission data to each group;
It comprises transmission means for transmitting transmission data through the information channel in accordance with the contents determined by the transmission timing means. The transmission timing determining means is formed to determine the transmission time of transmission data addressed to each group according to the data length of the transmission data,
The transmission means is configured to transmit information on the presence / absence of transmission data for each group, transmission time when there is transmission data, and data length of the transmission data using a control channel, and the control channel is provided for each group. Consists of a plurality of time slots associated with

  ADVANTAGE OF THE INVENTION According to this invention, the delivery efficiency of transmission data can be improved compared with the past.

  The information distribution apparatus described below is described as being provided in a base station apparatus that performs radio communication with a mobile terminal for convenience of explanation. However, a base station control apparatus that controls the base station and other higher-level apparatuses for the base station It is also possible to provide it. Further, all or part of the functions of the information distribution apparatus can be provided in the base station or the base station host apparatus.

  FIG. 3 shows a schematic block diagram of an information distribution apparatus 300 according to the first embodiment of the present application. Information transmitted from the network side (not shown) is stored in the buffer means 302 via an appropriate interface (not shown). Buffer means 302 is coupled to scheduler means 304. Scheduler means 304 is coupled to control channel generation means 308 that forms part of transmission means 306. In the control channel generation means 308, a control channel is formed by using a time slot associated with each of the multicast groups, whereby control data is transmitted to each group. The timing generation unit 310 related to the control channel provides information related to the time slot and transmission timing to the scheduler unit 304 and the control channel generation unit 308.

  The buffer means 302 is coupled via the selector 312 to any of the information channel 1 generation means 314, the information channel 2 generation means 316, or the information channel 3 generation means 318. An information channel is a communication resource that can be allocated using a frequency, a spreading code, or the like. In this embodiment, an information channel is specified using a predetermined channel number. However, any identification information can be used as long as the information channel is specified even if it is not a channel number. Also good. The selection operation of the selector 312 is performed using the timing information from the timing generation unit 320 regarding the information channel in addition to the channel number from the scheduler unit 304. The above-described control channel generation unit 308, selector 312, and generation units 314, 316, and 318 related to the information channels 1, 2, and 3 are included in the transmission unit 306 as a whole. That is, the output of the transmission means 306 is composed of the output from the control channel generation means 308 and the output from the generation means 314, 316 or 318 related to the information channel 1, 2 or 3, which are antennas as the control channel and information channel. (Not shown).

  The operation will be described. The buffer unit 302 receives transmission data transmitted as distribution information, and provides the scheduler unit 304 with information regarding the data amount (buffer amount) of transmission data for each multicast group. In response to this, the scheduler unit 304 first determines the presence / absence of distribution information (information presence / absence) for each group, and notifies the control channel generation unit 308 of the result. If there is no distribution information for a certain group, the control channel generation means 308 generates control data indicating that there is no distribution information.

  When there is distribution information, the scheduler unit 304 further selects one information channel suitable for distributing information from a plurality of information channels based on the data length of the transmission data. That is, an information channel capable of transmitting distribution information is selected after a predetermined period has elapsed after the end of the time slot (control channel) related to the currently targeted group. When there are a plurality of information channel candidates, it is possible to select a channel with a smaller channel number, but this is not essential to the present invention, and any of them may be used. In the present embodiment, the predetermined period is set in advance in the system as a fixed time offset. Information on the selected information channel is notified to the control channel generation means 308, and information on the presence / absence of transmission data, the information channel to be used when there is transmission data, and the data length of transmission data is transmitted to each group through the control channel. Is done.

  The data length can take an arbitrary length value. It should be noted that the data length can be specified in terms of the number of time slots, and can be handled in units of an arbitrary amount such as the number of bits, the number of bytes, the number of chips, and the time corresponding thereto. For this reason, while it becomes possible to deliver a lot of data continuously, it becomes possible to perform precise resource allocation even for a small amount of data less than one slot.

  FIG. 4 shows the contents of the control channel included in the output from the control channel generation means 308. Each time slot 602 corresponds to each of a plurality of multicast groups. For each group, information on the presence / absence of transmission data (information presence / absence) 604, information channel (channel number) 606 to be used when transmission data exists, and data length 608 of transmission data are transmitted. A cyclic redundancy check (CRC) bit 610 for error detection is added to this control channel, but this is not essential to the present invention. FIG. 4 does not show the exact signal format of the control channel, but shows what may be included in the control channel. Therefore, the order of the items in the control channel can be appropriately changed, and other information can be included as necessary.

  Returning to FIG. 3, the information (channel number) regarding the selected information channel is notified to the control channel generation means 308 and also provided to the selector 312, and the information channel is used when transmitting the distribution information. The distribution information from the buffer unit 302 is output from the generation unit 314, 316, or 318 related to the information channel 1, 2, or 3 based on the timing from the timing generation unit 320 through the selector. In this embodiment, since the information distribution apparatus 300 is provided in the radio base station, the information channel is wirelessly transmitted together with the control channel thereafter. If the information distribution device 300 is configured as a higher-level device of the base station, the output from the transmission means 306 is transmitted as control data and information channel from the base station as control data and information data. Is transmitted.

  FIG. 5 illustrates a control channel and an information channel transmitted from the transmission unit 306. As shown, the control channel consists of N time slots, which can take values such as 256 and 1024, for example, and each time slot is associated with each group of multicast groups. The content transmitted by the control channel is equal to that output from the control channel generation means 308 of FIG. The N time slots form one super frame 402 as a whole, and this super frame 402 is repeated, so that control data relating to information distribution is continuously transmitted.

  Assume that the correspondence between time slots and multicast groups is shown in FIG. First, it is shown in time slot 0 that there is distribution information regarding news, and after a predetermined time offset Td after time slot 0 has elapsed, the distribution information is transmitted through information channel 1. This corresponds to that output from the generation unit 314. The time slot 1 indicates that there is distribution information related to the weather forecast, and after the time slot 1 has passed, the time offset Td has passed, and then transmitted through the information channel 2. This corresponds to that output from the generation unit 316. Time slot 2 indicates that there is no distribution information regarding baseball information, and no information is transmitted from the information channel. The time slot 3 indicates that there is distribution information related to stock price information, and is transmitted through the information channel 3 after the time offset Td has elapsed after the time slot 3 has elapsed. This corresponds to that output from the generation unit 318.

  In this case, instead of using the information channel 3 if the scheduler means 304 is formed so that when there are a plurality of usable information channels, the channel number with the smallest channel number is preferentially used. It is also possible to transmit stock price information using the information channel 1. In the present embodiment, the fixed predetermined time offset Td is drawn as if it corresponds to one time slot, but this is not essential to the present invention, and an arbitrary period of time is shown. Can be adopted.

  FIG. 6 shows a partial schematic diagram of a mobile terminal 500 suitable for use in the first embodiment of the present application. The mobile terminal 500 includes control channel decoding means 502 for decoding control data included in a signal received through an antenna. The output of the control channel decoding unit 502 is coupled to a determination unit 504 that determines the presence / absence of distribution information. The output of the determination unit 504 is coupled to a timing generation unit 506 which is a management unit that controls reception timing related to the information channel. The control channel decoding unit 502 and the information channel timing generation unit 506 are coupled with a timing control unit 507 for the control channel. On the other hand, the output of control channel decoding means 502 is also coupled to means 508 for extracting the data length of the distribution information and means 510 for extracting the channel number of the information channel used for transmission of the distribution information.

  Extraction means 512 including means 508 and 510 forms extraction means 512 for extracting control data other than the presence or absence of distribution information. The output from the means 510 relating to the channel number is coupled to a channel switching means 514 for switching to a channel designated by the means 510 from among a plurality of channels. The output of the channel switching means 514 is input to the information channel decoding means 516 for outputting information data. Channel switching means 514 and information channel decoding means 516 form receiving means 518 that receives distribution information at an appropriate reception timing using an information channel specified by a control channel.

  The operation will be described next. The mobile terminal 500 receives control data related to the multicast group to which the mobile terminal 500 belongs while performing intermittent reception. When the mobile terminal 500 joins the multicast group, the mobile terminal 500 acquires information about which time slot information should be acquired. Using this information, the timing for performing intermittent reception is generated by the control channel / timing generation means 507. The received signal received from the antenna is demodulated through a demodulation circuit (not shown), and control data from the control channel is input to the control channel decoding means 502 and decoded. The determination unit 504 determines the presence / absence of distribution information. If there is no distribution information, this is notified to the timing generation means 506, and the next control data is awaited. When there is distribution information, the extraction means 512 further extracts information (channel number) about the data length of the distribution information and what information channel is used for information distribution from the control data. Information about the presence of distribution information and data length is notified to the timing generation means 506. On the other hand, the information about the information channel to be used is notified from the extracting unit 512 to the channel switching unit 514 and set to an appropriate information channel. Then, the decoding unit 516 receives the distribution information based on the reception timing from the timing generation unit 506 and decodes it, thereby obtaining information data.

  For example, if the mobile terminal 500 belongs to a news group, the control data related to time slot 0 is received, decoded by the control channel decoding means 502, and the determination means 504 determines that there is distribution information. The extracting means 512 detects that the transmission data has a data length of, for example, 20 ms and is transmitted through the information channel 1. Then, after the end of the time slot 0, information related to news transmitted after the elapse of a predetermined time offset is received using the information channel 1.

  According to the present embodiment, distribution information is transmitted using a plurality of information channels. Which information channel is used to distribute distribution information addressed to a group is notified to each group through a control channel for each group. Since how to use a plurality of information channels is appropriately determined mainly by the scheduler means 304 in the distribution information apparatus 300, it is possible to improve the efficiency of information distribution.

  In the illustrated form, for the sake of simplicity, three information channels are depicted as being usable. However, any plurality of information channels that can be specified by frequency, code, or a combination of these are shown. It is possible to use. In general, a common channel that can be commonly used by all users is used as the information channel. However, in some cases, an individual channel dedicated to a single user can be used. This is because the distribution information only needs to be transmitted appropriately. Therefore, in addition to being able to use a common channel or an individual channel, it is also possible to use an individual channel if it has already been set, and use a common channel if it has not been set. With respect to the control channel, it is necessary to use a time-division time slot common to all mobile terminals from the viewpoint of causing all mobile terminals belonging to the group to perform an intermittent operation.

  FIG. 7 shows a schematic block diagram of an information distribution apparatus 700 according to the second embodiment of the present application. The same elements as those described in the first embodiment are denoted by the same reference numerals, and description thereof will be omitted. The information distribution device 700 has scheduler means 704 coupled to the buffer means 302. Similar to the first embodiment, the scheduler unit 704 determines the presence / absence of the distribution information and the data length based on the information on the data amount from the buffer unit 302 and notifies the control channel generation unit 708 of it. Unlike the first embodiment, the scheduler means 704 generates control channel information (offset) about how long the distribution information will be transmitted after the end of the time slot mainly based on the data length. The means 708 is notified. That is, this offset is not a fixed value, but a value that can change dynamically and can vary from group to group. The information channel timing means 720 is also notified of the offset, and the transmission timing of the distribution information is generated. Using this transmission timing, the information channel generation unit 314 transmits the transmission data stored in the buffer unit 302.

FIG. 8 shows the relationship between the control channel and information channel output from the transmission means 306. The control channel consists of N time slots from 0 to N-1, and transmits control data addressed to the group associated with each time slot. In this embodiment, the presence / absence of distribution information, the offset, and the data length are transmitted to each group. For example, it is indicated that there is distribution information regarding news in time slot 0, and the distribution information is transmitted after a certain time interval (T ₀ ) after time slot 0. Time slot 1 indicates that there is no data related to the weather forecast. Time slot 2 indicates that there is data relating to baseball information, and the distribution information is transmitted after a time interval (T ₂ ) after time slot 2. The time intervals (offsets) T ₀ and T ₂ are amounts that can fluctuate each time mainly depending on the data length. As with the data length, the time interval can be set using an arbitrary unit, so it is possible to reduce the unused time of the information channel as much as possible and perform efficient information distribution. become.

  FIG. 9 shows a partial schematic diagram of a mobile terminal 900 suitable for use in the second embodiment of the present application. The same elements as those described in FIG. 6 are denoted by the same reference numerals, and description thereof is omitted. The received signal received from the antenna is demodulated through a demodulation circuit (not shown), and control data from the control channel is input to the control channel decoding means 502 and decoded. The determination unit 504 determines the presence / absence of distribution information, and notifies the timing generation unit 506 of the determination result. When there is distribution information, the information about the data length and offset of the distribution information is further extracted from the control data by the extraction unit 512 and notified to the information channel timing generation unit 506. Then, the decoding unit 516 receives the distribution information based on the reception timing from the timing generation unit 506 and decodes it, thereby obtaining information data.

  According to the present embodiment, the distribution information is transmitted while changing the offset for each group. The length of the offset is notified to each group through the control channel for each group. Since the offset is determined appropriately mainly by the scheduler means 304 in the distribution information device 300, it is possible to improve the efficiency of information distribution.

  The third embodiment of the present application is generally obtained by combining those described in the first and second embodiments. That is, in this embodiment, in addition to using a plurality of information channels, the offset is also variable. Elements similar to those described in the first and second embodiments are denoted by the same reference numerals, and description thereof is omitted.

  FIG. 10 shows a schematic block diagram of an information distribution apparatus 1000 according to the third embodiment of the present application. The scheduler unit 1004 determines or determines the presence / absence of distribution information, an offset, a channel number, and a data length, and notifies the control channel generation unit 1008 of it. In the control channel generation means 1008, a control channel including these pieces of information is generated. Information on the offset is also provided to the control channel timing generation means 1020. Information regarding the channel number is provided to the selector 312.

  FIG. 11 shows a partial schematic diagram of a mobile terminal 1100 suitable for use in the third embodiment of the present application. Control data from the control channel is input to the control channel decoding means 502 and decoded. The determination unit 504 determines the presence / absence of distribution information, and notifies the timing generation unit 506 of the determination result. If there is distribution information, the extraction means 512 further extracts information on the data length, offset, and channel number of the distribution information from the control data. The offset and data length are reported to the information channel timing generation means 506. The channel number of the information channel is notified from the extracting unit 512 to the channel switching unit 514 and set to an appropriate information channel. Then, the decoding unit 516 receives the distribution information based on the reception timing from the timing generation unit 506 and decodes it, thereby obtaining information data.

  According to this embodiment, distribution information is transmitted not only using a plurality of information channels but also changing the offset for each group. For this reason, in addition to enabling more efficient information distribution than before, it is possible to distribute information at an early stage while improving the efficiency of communication resources for information channels. For example, in the first embodiment, information can be distributed to each group at an early stage, but the use efficiency of each information channel is low. In the second embodiment, the use efficiency of the information channel is very high, but the information distribution timing is delayed compared to the first embodiment. According to the present embodiment, it is possible to dynamically assign the offset in the time direction and the frequency (or spreading code) according to the buffer amount of information to be transmitted. Since the channel number and offset of the information channel can be changed as appropriate, the scheduler means 1004 can optimize the channel number and offset value each time.

  FIG. 12 shows a schematic block diagram of an information distribution apparatus 1200 according to the fourth embodiment of the present application. The same elements as those described in the first to third embodiments are denoted by the same reference numerals, and the description thereof is omitted. Based on the information from the buffer unit 302, the scheduler unit 1004 determines or determines the presence / absence of distribution information, the data length, the offset, and the channel number. Among these, the presence or absence of distribution information is notified to the main control channel generation means 1202, and the data length, offset and channel number are notified to the sub control channel generation means 1204. That is, in this embodiment, a main control channel for transmitting information indicating the presence / absence of distribution information and a sub control channel for transmitting other control data (data length, offset, and channel number) are used. Both the main control channel and the sub control channel are formed by time slots assigned to each group, and the offset (deviation) between them is maintained at zero or a constant value.

  FIG. 13 shows an example of the relationship between the main control channel, the sub control channel, and the information channels 1, 2, and 3. It is shown that there is distribution information in a time slot i from the main control channel, and a data length, an offset, and a channel number are shown by a time slot i ′ associated therewith. Then, after the elapse of the offset Ti after the time slot i ′, for example, the distribution information is transmitted using the information channel 1. Similarly, the presence of distribution information is indicated by another time slot j, and the data length, offset, and channel number are indicated by the time slot j ′ associated therewith. Then, after the elapse of the offset Tj after the time slot j ′, the distribution information is transmitted using, for example, the information channel 2. Time slot k indicates that there is no distribution information. In this case, there is no information to be transmitted on the secondary control channel. The temporal relationship between the primary and secondary control channels is maintained at a constant offset Td, but the offsets Ti and Tj until transmission of distribution information is started on the information channel are set appropriately each time. It is a variable value.

  FIG. 14 shows a partial schematic diagram of a mobile terminal 1400 suitable for use in the fourth embodiment of the present application. In this embodiment, the control channel is transmitted separately in two main and sub systems, and accordingly, the main control channel decoding unit 1402 and the sub control channel decoding unit 1404 are provided in the mobile terminal. The main control channel decoding unit 1402 decodes information included in the main control channel and notifies the determination unit 504 of the information. The determination unit 504 determines the presence / absence of distribution information and notifies the determination result to the information channel timing generation unit. The other control data is provided to the extraction means 512 through the sub control channel decoding means 1404 and extracted by the means 508, 509, 510 for extracting the data length, offset, and channel number, respectively. The data length and offset are provided to the information channel timing generation means, the channel number is provided to the channel switching means 514, and data on the information channel is received through the information channel decoding means 516.

  According to the present embodiment, in addition to the same effects as those of the third embodiment, the control channel is formed by being divided into a main control channel and a sub control channel associated therewith. For example, a control channel such as a conventional paging indicator channel (PICH) can be used for transmission of presence / absence of transmission data. For other information, an associated control channel (Associated S-CCPCH) is used. Can be used. Therefore, the present embodiment is preferable from the viewpoint of easily realizing the existing technology.

  FIG. 15: shows the schematic block diagram of the information delivery apparatus by 5th Example of this application. Although generally the same as that described in the third embodiment, the handling of the data length of the distribution information is different. In the first to fourth embodiments, the data length is transmitted through the control channel, but in this embodiment, the data length is transmitted through the information channel and incorporated as header information of the information channel to be used.

  The scheduler unit 1504 determines or determines the presence / absence of distribution information, an offset, a channel number, and a data length based on information from the buffer unit 302. The process up to this point is the same as in the other embodiments. In this embodiment, the data length is provided to one input of adder 1503. The other input of adder 1503 is coupled to the output of buffer means 302. This adder 1503 makes it possible to add the data length as header information of distribution information. The distribution information to which the information regarding the data length is added by the adder 1503 is transmitted to the appropriate information channel generation means through the selector and transmitted.

  FIG. 16 shows the relationship between control channels and information channels used in the fifth embodiment. Each of the time slots 1602 is assigned corresponding to each of a plurality of multicast groups. For each group, information on the presence / absence of transmission data (information presence / absence) 1604, information channel (channel number) 1606 to be used when transmission data exists, and offset 1608 are transmitted. After the time T specified by the offset 1608 after this time slot has elapsed, transmission of distribution information is started. In this information channel, data length 1612 of distribution information, distribution information 1614, and CRC 1616 are transmitted. Note that CRC is not essential.

  FIG. 17 shows a partial schematic diagram of a mobile terminal 1700 suitable for use in the fifth embodiment of the present application. In general, it is the same as the mobile terminal 1100 of FIG. 11 of the third embodiment, but the handling of the data length is different. In this embodiment, since the data length is transmitted as header information in the information channel, the data length is extracted by the information channel decoding means 516 and provided to the information channel timing generation means 506. This embodiment is advantageous from the viewpoint of reducing the content transmitted on the control channel.

FIG. 18 shows the relationship between the control channel and the information channel according to the sixth embodiment of the present application. In this embodiment, first and second control channels are prepared, and control data is transmitted to two groups in parallel. In the illustrated example, control data is transmitted to the group corresponding to time slots 0 to 63 on the first control channel, and control data to the group corresponding to time slots 64 to 127 is transmitted on the second control channel. Is transmitted. For example, distribution information is transmitted on information channel 1 with offsets T ₀ , T ₁ , T ₆₅ by time slots ₀ , ₁ , ₆₅ , and distribution information is transmitted on information channel 2 with offset T ₆₄ by time slot 64. Is shown.

  According to the present embodiment, the control channel generation means of the transmission means uses a plurality of time slots, all or a part of which overlap in time, to the presence / absence of transmission data and transmission data for a plurality of groups. Information on an information channel to be used in a certain case, a transmission time of transmission data, and a data length of transmission data is transmitted. If a plurality of control channels are prepared as in this embodiment, control data for a plurality of groups can be transmitted in parallel. This embodiment is particularly advantageous when the number of groups is relatively large.

  As described above, according to the embodiment of the present invention, the scheduler means selects an information channel from a plurality of information channels so as to transmit transmission data having different destinations through different information channels, and determines to transmit the transmission data. For each group, the transmission means transmits information on the presence / absence of transmission data, an information channel to be used when there is transmission data, and information on the data length of the transmission data through the control channel. The control channel consists of a plurality of time slots associated with each of the groups. Since distribution information to each group is quickly distributed through a plurality of information channels, it is possible to improve data distribution efficiency.

  Further, according to the present embodiment, the scheduler means determines the transmission time of the transmission data addressed to each group according to the data length of the transmission data stored in the buffer means. The transmission means is configured to transmit information on the presence / absence of transmission data, the transmission time when transmission data exists, and the data length of transmission data for each group using a control channel. Since the transmission time (start time and end time) is determined according to an arbitrary data length, it is possible to improve the data distribution efficiency.

  The information distribution apparatus according to the embodiment of the present application can be provided in a base station that controls a base station, in addition to being provided in a base station that performs radio communication with a mobile terminal. Further, the information distribution device may be formed as one device or not. For example, the scheduler means (304, 704, 1004, 1504) and the transmission means (306) can be realized to be accommodated in different devices. This is because various functions included in the information distribution apparatus may be realized as a whole.

  The preferred embodiment of the present invention has been described above, but the present invention is not limited to this, and various modifications and changes can be made within the scope of the gist of the present invention.

Hereinafter, the means taught by the present invention will be listed as an example.
(Appendix 1)
An information distribution device that distributes different information for each predetermined group to which a mobile terminal belongs,
Buffer means for receiving transmission data addressed to each group;
Scheduler means for selecting an information channel for transmitting transmission data from a plurality of information channels;
The scheduler means is configured to select an information channel so as to transmit transmission data of different destinations through different information channels, using transmission means for transmitting transmission data using the selected information channel,
The transmission means is formed so as to transmit information on the presence / absence of transmission data, an information channel to be used when there is transmission data, and information on the data length of transmission data for each group using a control channel, An information distribution apparatus comprising a plurality of time slots associated with each group.
(Appendix 2)
2. The supplementary note 1, wherein the control channel includes a main control channel for transmitting information on the presence / absence of transmission data and a sub-control channel for transmitting information different from the presence / absence of transmission data. Information distribution device.
(Appendix 3)
The information distribution apparatus according to claim 1, wherein the transmission unit is configured to transmit the information about the data length as header information of the information channel instead of transmitting the information about the data length through a control channel.
(Appendix 4)
When the transmission means uses a plurality of time slots in which all or some of the time slots forming the control channel overlap in time, the presence / absence of transmission data and transmission data exist for a plurality of groups The information distribution apparatus according to claim 1, wherein the information distribution apparatus is configured to transmit information on an information channel to be used for the transmission and a data length of transmission data.
(Appendix 5)
A base station that performs wireless communication with a mobile terminal, comprising the information distribution device according to attachment 1.
(Appendix 6)
A base station host apparatus for controlling a base station that performs radio communication with a mobile terminal, comprising the information distribution apparatus according to attachment 1.
(Appendix 7)
A mobile terminal belonging to a predetermined group in an information distribution system that distributes different information for each group,
Determination means for determining presence / absence of distribution information addressed to the predetermined group through a control channel including time slots assigned to the predetermined group;
An information channel to be used for receiving the distribution information, and extraction means for extracting information on the data length of the distribution information;
Management means for managing the reception timing of the distribution information based on the data length of the distribution information;
A mobile terminal comprising: a receiving unit configured to receive the distribution information according to the reception timing using the information channel to be used among a plurality of information channels that can be used by the mobile terminal.
(Appendix 8)
The supplementary note 7, wherein the control channel includes a main control channel for transmitting information related to the presence / absence of the transmission data and a sub-control channel for transmitting information different from the presence / absence of the transmission data. Mobile terminal.
(Appendix 9)
The mobile terminal according to appendix 7, wherein the extracting means is configured to extract information on the data length from header information of an information channel.
(Appendix 10)
An information distribution device that distributes different information for each predetermined group to which a mobile terminal belongs,
Buffer means for receiving transmission data addressed to each group;
Scheduler means for determining a transmission time for transmitting transmission data to each group;
The transmission means transmits transmission data through an information channel according to the contents determined by the scheduler means, and the scheduler means transmits transmission data addressed to each group according to the data length of the transmission data stored in the buffer means. Formed to determine the
The transmission means is configured to transmit information on presence / absence of transmission data, transmission time when there is transmission data, and data length of transmission data for each group through a control channel. An information distribution device comprising a plurality of time slots associated with the information slot.
(Appendix 11)
11. The supplementary note 10, wherein the control channel includes a main control channel for transmitting information related to the presence / absence of transmission data and a sub-control channel for transmitting information different from the presence / absence of transmission data. Information distribution device.
(Appendix 12)
11. The information distribution apparatus according to claim 10, wherein the transmission unit is configured to transmit the information on the data length as header information of the information channel instead of transmitting the information on the data length through a control channel.
(Appendix 13)
The transmission means uses a plurality of time slots in which all or a part of the time slots forming the control channel overlap in time, the presence / absence of transmission data and the transmission time of transmission data for a plurality of groups And the information delivery device according to appendix 10, wherein the information delivery device is configured to transmit information on a data length of transmission data.
(Appendix 14)
A base station that performs wireless communication with a mobile terminal, comprising the information distribution device according to attachment 10.
(Appendix 15)
A base station host apparatus for controlling a base station that performs radio communication with a mobile terminal, comprising the information distribution apparatus according to attachment 10.
(Appendix 16)
A mobile terminal belonging to a predetermined group in an information distribution system that distributes different information for each group,
Determining means for determining presence / absence of distribution information addressed to the predetermined group through a control channel comprising a plurality of time slots assigned to each of the groups;
An extraction means for extracting information related to a transmission time of the distribution information and a data length of the distribution information;
Management means for managing the reception timing of the distribution information based on the transmission time of the distribution information and the data length;
A mobile terminal comprising receiving means for receiving the distribution information through an information channel according to the reception timing.
(Appendix 17)
18. The supplementary note 16, wherein the control channel includes a main control channel for transmitting information on the presence / absence of transmission data and a sub-control channel for transmitting information different from the presence / absence of transmission data. Mobile terminal.
(Appendix 18)
The mobile terminal according to supplementary note 16, wherein the extracting means is configured to extract information on the data length from header information of an information channel.
(Appendix 19)
A control channel composed of a plurality of time slots and an information channel for distributing distribution information assigned to the time slot are provided, and the time slot of the control channel is for specifying the information channel for distributing corresponding distribution information An information distribution apparatus having identification information.
(Appendix 20)
20. The information distribution apparatus according to appendix 19, wherein the distribution information of the information channel is sent after a predetermined time offset has elapsed with respect to the corresponding time slot of the control channel.
(Appendix 21)
20. The information distribution apparatus according to appendix 19, wherein the control channel identification information includes at least a channel number and a data length.
(Appendix 22)
A control channel comprising a plurality of time slots and an information channel for distributing distribution information assigned to the time slot are provided, and the time slot of the control channel is identification information for specifying the time at which the corresponding distribution information is distributed An information distribution apparatus comprising:
(Appendix 23)
The information distribution apparatus according to appendix 22, wherein the identification information includes information related to a time offset from a corresponding time slot of the control channel so that a plurality of types of distribution information do not overlap.
(Appendix 24)
An information distribution device that distributes different information for each predetermined group to which a mobile terminal belongs,
Channel selection means for selecting an information channel for transmitting transmission data from a plurality of information channels;
A transmission means for transmitting transmission data using the selected information channel, wherein the channel selection means is configured to select an information channel so as to transmit transmission data of a different destination through different information channels;
The transmission means is formed so as to transmit information on the presence / absence of transmission data, an information channel to be used when there is transmission data, and information on the data length of transmission data for each group using a control channel, An information distribution apparatus comprising a plurality of time slots associated with each group.
(Appendix 25)
An information distribution device that distributes different information for each predetermined group to which a mobile terminal belongs,
Transmission timing determining means for determining a transmission time for transmitting transmission data to each group;
The transmission timing transmitting means transmits transmission data through an information channel according to the contents determined by the transmission timing means, and the transmission timing determination means determines the transmission time of transmission data addressed to each group according to the data length of the transmission data. Formed to
The transmission means is configured to transmit information on the presence / absence of transmission data for each group, transmission time when there is transmission data, and data length of the transmission data using a control channel, and the control channel is provided for each group. An information distribution device comprising a plurality of time slots associated with the information slot.

The conceptual diagram regarding the information delivery by the conventional multicast is shown. It is a figure which shows the correspondence of a time slot number and a multicast group. 1 shows a schematic block diagram of an information distribution apparatus according to a first embodiment of the present application. It is a conceptual diagram of the control channel used in this application 1st Example. It is a figure which shows the relationship between the control channel and information channel by 1st Example of this application. 1 shows a partial schematic diagram of a mobile terminal suitable for use in the first embodiment of the present application. The schematic block diagram of the information delivery apparatus by 2nd Example of this application is shown. It is a figure which shows the relationship between the control channel and information channel by 2nd Example of this application. Fig. 2 shows a partial schematic diagram of a mobile terminal suitable for use in the second embodiment of the present application. The schematic block diagram of the information delivery apparatus by 3rd Example of this application is shown. FIG. 4 shows a partial schematic diagram of a mobile terminal suitable for use in the third embodiment of the present application. The schematic block diagram of the information delivery apparatus by 4th Example of this application is shown. The relationship between the main control channel, the sub control channel, and each information channel used in the fourth embodiment is shown. FIG. 7 shows a partial schematic diagram of a mobile terminal suitable for use in the fourth embodiment of the present application. The schematic block diagram of the information delivery apparatus by 5th Example of this application is shown. It is a figure which shows the relationship between the control channel and information channel which are used in 5th Example. FIG. 7 shows a partial schematic diagram of a mobile terminal suitable for use in the fifth embodiment of the present application. It is a figure which shows the relationship between the control channel and information channel which are used in 6th Example.

Claims (7)

A transmission unit that transmits first control data related to transmission data via a first control channel and transmits second control data related to the transmission data via a second control channel;
The second control data includes channel information required for receiving the transmission data.
A wireless communication apparatus. The first control data does not include the channel information required for receiving the transmission data.
The wireless communication apparatus according to claim 1. The wireless communication apparatus according to claim 1, wherein the first control data includes information indicating presence / absence of the transmission data. Transmitting first control data relating to transmission data via a first control channel, transmitting second control data relating to the transmission data via a second control channel;
The second control data includes channel information required for receiving the transmission data.
A transmission method in a wireless communication apparatus. A receiving unit configured to receive first control data related to transmission data via the first control channel and second control data related to the transmission data via the second control channel;
The reception unit receives the transmission data based on channel information required for reception of the transmission data included in the second control data.
A wireless communication apparatus. The first control signal transmitted via the first control channel notifies the transmission channel of the first data, and is transmitted via the second control channel having a frequency different from that of the first control channel. A transmission unit that notifies the transmission channel of the second data by the control signal of 2, and notifies the transmission channel of the third data by the third control signal transmitted through the second control channel;
The transmission channel of the first data and the transmission channel of the second data are transmitted via different frequencies, and the transmission channel of the third data has a frequency common to the transmission channel of the first data. Have,
A wireless communication apparatus. The first control signal transmitted via the first control channel notifies the transmission channel of the first data, and is transmitted via the second control channel having a frequency different from that of the first control channel. A second data transmission channel is notified by a second control signal, a third data transmission channel is notified by a third control signal transmitted through the second control channel,
The transmission channel of the first data and the transmission channel of the second data are transmitted via different frequencies, and the transmission channel of the third data has a frequency common to the transmission channel of the first data. Have,
A transmission method in a wireless communication apparatus.

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