JP2011119834A - Transfer device, communication system and transfer method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a transfer device, a communication system and a transfer method, capable of increasing a data transfer speed. <P>SOLUTION: A compact base station 400 in a compact transfer device 300 connected to a network controller 110 capable of communicating with a radio terminal 120 through a large-sized transfer device 200 includes: a signal measurement part 413 for measuring the signal quality of radio signals of a data request transmitted from the radio terminal 120; a transfer request generation part 413 for generating a distribution request that requests data distribution when the measured result exceeds a threshold; a data processing part 415 for transmitting the distribution request to the network controller 110; and a distribution data transfer part 420 for transferring, to the radio terminal 120, distribution data other than a part of data transferred through the large-sized transfer device 200 to the radio terminal 120, among the data requested by the data request, when the network controller 110 receives the data request and the distribution request. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a transfer device, a communication system, and a transfer method.

  Patent Document 1 describes a mobile communication system including a macro cell and a femto cell. In the mobile communication system described in Patent Document 1, a radio communication terminal performs data communication via either a large cell radio communication base station that covers a macro cell or a small cell radio communication base station that covers a femto cell. Do.

Japanese Patent Laying-Open No. 2009-77368 (FIG. 1)

  In the mobile communication system described in Patent Literature 1, when data requested by a radio communication terminal is transferred to the radio communication terminal, both the large cell radio communication base station and the small cell radio communication base station are the radio communication terminals. Even if communication is possible, data is transferred only through one of the base stations. Therefore, the data transfer rate to the wireless communication terminal cannot be made faster than the data transfer rate of one base station used for data transfer.

  For this reason, there has been a problem that it is difficult to increase the data transfer rate to the wireless terminal.

  An object of the present invention is to provide a transfer device, a communication system, and a transfer method that solve the above-described problems.

  A transfer device according to the present invention is a transfer device connected to a control device capable of communicating via a specific transfer device with a wireless terminal that transmits a data request for requesting predetermined data as a wireless signal, from the wireless terminal. A receiving means for receiving a radio signal of the transmitted data request, a measuring means for measuring the signal quality of the wireless signal received by the receiving means, and the data when the measurement result at the measuring means exceeds a threshold value Generating means for generating a distribution request for requesting distribution of the predetermined data requested in the request; transmitting means for transmitting the distribution request generated by the generating means to the control apparatus; and Of the predetermined data transferred to the wireless terminal when the data request and the distribution request are received, a part of the data transferred to the wireless terminal via the specific transfer device It receives the distribution data other than, comprising a transfer means for transferring the dispensing data to the wireless terminal.

  The communication system of the present invention includes a wireless terminal that transmits a data request for requesting predetermined data as a wireless signal, and the predetermined data requested by the data request when the data request is received from the wireless terminal. A communication device including: a control device that transfers the address to the wireless terminal; and first and second transfer devices that respectively connect the wireless terminal and the control device, wherein the first transfer device Measures the signal quality of the radio signal of the data request, generates a distribution request if the measurement result exceeds a threshold, and transmits the distribution request to the control device. When the data request from the terminal and the distribution request from the first transfer device are received, a part of the predetermined data is transferred to the wireless terminal via the second transfer device. The distribution data other than the partial data is transferred to the wireless terminal via the first transfer device, and the wireless terminal transmits the partial data from the second transfer device and the first data A communication system that generates the predetermined data based on the distribution data from the transfer device.

  The transfer method in the transfer device of the present invention is a transfer method in a transfer device connected to a control device capable of communicating via a specific transfer device with a radio terminal that transmits a data request for requesting predetermined data as a radio signal. A reception step of receiving a radio signal of a data request transmitted from the radio terminal, a measurement step of measuring the signal quality of the radio signal received by the reception step, and a measurement result in the measurement step having a threshold value A generation step for generating a distribution request for requesting distribution of the predetermined data requested in the data request, and a transmission step for transmitting the distribution request generated by the generation step to the control device. The predetermined data to be transferred to the wireless terminal when the control device receives the data request and the distribution request. , Including a transfer step of receiving said distribution data other than a part of the data transferred to the wireless terminal, and transfers the dispensing data to the wireless terminal via the specific transfer device.

  The transfer method in the communication system of the present invention is requested by the data request when the data request from the radio terminal is received as a radio signal, and when the data request from the radio terminal is received. A transfer method in a communication system including: a control device that transfers the predetermined data to the wireless terminal; and first and second transfer devices that connect the wireless terminal and the control device, respectively. The first transfer device measures the signal quality of the radio signal of the data request, generates a distribution request when the measurement result exceeds a threshold value, and transmits the distribution request to the control device And when the control device receives the data request from the wireless terminal and the distribution request from the first transfer device, a part of the predetermined data Transferring the data to the wireless terminal via the second transfer device, and transferring the distribution data other than the partial data to the wireless terminal via the first transfer device; and And a generation step of generating the predetermined data based on the partial data from the second transfer device and the distribution data from the first transfer device.

  According to the present invention, the data transfer rate can be improved.

It is a block diagram which shows the communication system in one Embodiment of this invention. FIG. 3 is a block diagram showing an example configuration of a small base station 400. 6 is a sequence chart showing a processing procedure of the communication system 100 when a data request is transmitted from the wireless terminal 120 to the large transfer device 200. 10 is a sequence chart showing a processing procedure of the communication system 100 when a data request is transmitted from the wireless terminal 120 to the small transfer device 300. It is a block diagram which shows the small base station 500 in the 2nd Embodiment of this invention. 10 is a sequence chart showing a processing procedure of the communication system 100 when a retransmission request is transmitted from the wireless terminal 120 to the large transfer device 200.

  Embodiments of the present invention will be described below with reference to the drawings.

  FIG. 1 is a block diagram showing a communication system according to the first embodiment of the present invention.

  The communication system 100 includes a network control unit 110, a wireless terminal 120, a public network 130, a large transfer device 200, and a small transfer device 300. The large transfer device 200 includes a base station control device 210 and a base station 220. The small transfer device 300 includes a line connection unit 310 and a small base station 400.

  The network control device 110 controls a wireless network composed of the large transfer device 200 and the small transfer device 300. The network control device 110 is realized by, for example, a core network (CN) device. Network control device 110 can generally be referred to as a control device.

  The network control device 110 performs line control for establishing a communication line between the wireless terminal 120 and another wireless terminal (not shown) via the large transfer device 200 and the small transfer device 300.

  Further, the network control device 110 performs a connection between the wireless terminal 120 and a communication terminal connected to the public network 130 via the large transfer device 200 and the small transfer device 300. Examples of the public network 130 include PSTN (Public Switched Telephone Networks) and the Internet.

  Further, the network control device 110 receives a data request transmitted from the wireless terminal 120 and requesting predetermined data (Download Data) via the large transfer device 200. Further, the network control apparatus 110 receives a distribution request from the small transfer apparatus 300 to request distribution of predetermined data requested by the data request.

  When the network control apparatus 110 receives a distribution request from the small base station 400, the network control apparatus 110 distributes data to be transferred to the wireless terminal 120 to both the large transfer apparatus 200 and the small transfer apparatus 300.

  Specifically, for example, when receiving a data request from the wireless terminal 120, the network control device 110 connects to a communication terminal (for example, a distribution server) specified by the data request via the public network 130. Do. Then, the network control device 110 receives the data held in the communication terminal, that is, the request data requested by the data request.

  In this case, when the network control apparatus 110 receives a distribution request from the small base station 400, the network control apparatus 110 sends a part of the request data to the wireless terminal 120 via the large transfer apparatus 200 as the first distribution data. Forward as.

  On the other hand, the network control unit 110 transfers second distribution data (other data) other than some of the request data to the wireless terminal 120 via the small transfer device 300.

  For example, when receiving a distribution request from the small base station 400, the network control apparatus 110 converts the request data into first distribution data (partial data) and second distribution data (distribution data). Divide at a ratio of 1: 1. Then, the network control device 110 transfers the first distribution data to the large transfer device 200 and transfers the second distribution data to the small transfer device 300.

  When there are a plurality of small transfer apparatuses 300 that can communicate with the wireless terminal 120, when the network control apparatus 110 receives a plurality of distribution requests, the network control apparatus 110, for example, transmits a plurality of distribution requests. Request data is distributed to each of the small transfer device 300 and the large transfer device 200 at an equal ratio. For example, when three distribution requests are received, the network control device 110 distributes the request data to three small transfer devices and one large transfer device 200 at a ratio of 1/4.

  In addition, when the distribution request from the small transfer apparatus 300 indicates the ratio of other data (distributed data) to a part of the data, the network control apparatus 110 distributes the request data according to the ratio. You may make it do.

  The large transfer device 200 connects the network control device 110 and the wireless terminal 120 included in the communication range 201. The communication range 201 conceptually indicates a communicable range between the large transfer device 200 and the wireless terminal 120. Large transfer device 200 can be generally called a specific transfer device and a second transfer device.

  The large transfer device 200 transfers the data received from the network control device 110 to the wireless terminal 120. Further, the large transfer device 200 transfers the data received from the wireless terminal 120 to the network control device 110.

  The base station control device 210 is a base station control device that controls the base station 220 and other base stations not shown. The base station control device 210 connects between the base station 220 and the network control device 110 when performing communication between the wireless terminal 120 and another wireless terminal or a communication terminal. Base station control apparatus 210 can be generally referred to as transfer control means.

  The base station 220 is a radio base station that connects between a radio terminal in the communication range 201 and the base station controller 210. The base station 220 connects to the wireless terminal 120 by radio waves. That is, the base station 220 communicates with the wireless terminal 120 wirelessly.

  The base station 220 can be realized by, for example, a macro cell base station. Base station 220 can be generally referred to as second transfer means.

  The small transfer device 300 connects the network control device 110 and the wireless terminal 120 included in the communication range 301. The communication range 301 conceptually indicates a communicable range between the small transfer device 200 and the wireless terminal 120.

  The small transfer device 300 transfers the data received from the network control device 110 to the wireless terminal 120. The small transfer device 300 transfers the data received from the wireless terminal 120 to the network control device 110.

  Further, when the small transfer device 300 can communicate with the wireless terminal 120, the small transfer device 300 transmits a distribution request to the network control device 110 to request distribution of data requested by the data request.

  That is, when the small transfer device 300 receives the data request radio signal transmitted from the wireless terminal 120 to the large transfer device 200, the small transfer device 300 measures the signal quality of the radio signal, and the measurement result exceeds the quality threshold value. Generate a distribution request. Then, the small transfer device 300 transmits the distribution request to the network control device 110. Note that the small transfer device 300 can be generally referred to as a first transfer device.

  The line connection unit 310 connects the network control apparatus 110 and the small base station 400. For example, the line connection unit 310 connects to the small base station 400 via an ADSL (Asymmetric Digital Subscriber Line) line.

  The small base station 400 is a wireless base station that connects a wireless terminal in the communication range 301 and the network control device 110 via a line connection unit 310. The small base station 400 can be realized by, for example, a femto cell base station, that is, a micro base station. The communication range 301 at this time is, for example, a range with a radius of about 10 meters.

  In this embodiment, since the small base station 400 is located within the communication range 201, it receives a radio signal transmitted from the radio terminal 120 to the base station 220. For example, when the small base station 400 receives a data request radio signal transmitted from the radio terminal 120 to the base station 220, the small base station 400 measures the quality of the radio signal.

  Further, when the radio signal transmitted from the radio terminal 120 is a data request, the small base station 400 sends a distribution request via the line connection unit 310 when the measurement result exceeds the quality threshold. 110.

  On the other hand, the small base station 400 suppresses transmission of the distribution request when the wireless signal transmitted from the wireless terminal 120 is not a data request.

  The wireless terminal 120 is a wireless terminal (UE: User Equipment) that communicates with other wireless terminals or communication terminals via the large transfer device 200 and the small transfer device 300. In the present embodiment, it is assumed that the wireless terminal 120 exists in both communication ranges 121 and 201.

  The wireless terminal 120 performs bidirectional communication with other wireless terminals by, for example, issuing a call request for making a call.

  For example, the wireless terminal 120 transmits a data request for requesting predetermined data to the base station 220 in the large transfer device 200 as a wireless signal.

  In addition, when the wireless terminal 120 receives the distribution data transferred from the large transfer device 200 and the small transfer device 300, the wireless terminal 120 combines the distribution data. That is, the radio terminal 120 generates request data held in the data request destination communication terminal by assembling the distribution data transferred from the base station 220 or the small base station 400, respectively.

  The wireless terminal 120 is realized by a mobile phone that communicates with the base station 220 or the small base station 400 by, for example, an HSDPA (High Speed Downlink Packet Access) method or a W-CDMA (Wideband Code Division Multiple Access) method.

  FIG. 2 is a block diagram illustrating a configuration example of the small base station 400. The small base station 400 includes a terminal signal transfer unit 410 and a distributed data transfer unit 420.

  The terminal signal transfer unit 410 receives a radio signal transmitted from the radio terminal 120 and transfers the received signal to the line connection unit 310 via the signal line 319. The terminal signal transfer unit 410 includes a terminal signal reception unit 411, a signal measurement unit 413, a distribution request generation unit 414, and a data processing unit 415.

  The terminal signal receiving unit 411 is a receiving unit that receives a data request radio signal transmitted from the radio terminal 120. The terminal signal reception unit 411 includes an antenna 401 and an A / D (Analog to Digital) conversion unit 412.

  The antenna 401 is a receiving antenna that converts a radio signal transmitted from the radio terminal 120 into an electric signal. The antenna 401 is connected to the A / D conversion unit 412 and the signal measurement unit 413.

  The A / D conversion unit 412 converts an analog signal that is an electric signal generated in the antenna 401 into a digital signal. The A / D conversion unit 412 supplies the converted digital signal to the data processing unit 415.

  The signal measuring unit 413 measures the quality of the communication line between the wireless terminal 120 and the small base station 400. The signal measuring unit 413 measures the signal quality of the received signal output from the terminal signal receiving unit 411.

  For example, the signal measuring unit 413 measures received signal strength (RSSI) or received signal code power (RSCP) as signal quality. Alternatively, the signal measurement unit 413 measures, as signal quality, the ratio of energy per band of the common pilot channel (CPICH: Common Pilot CHannel) to the received power density in band (Ec / No).

  In addition, the signal measurement unit 413 supplies the measurement result to the distribution request generation unit 414. Signal measuring unit 413 can be generally referred to as measuring means.

  The distribution request generation unit 414 generates a distribution request when communication with the wireless terminal 120 is possible. The distribution request generation unit 414 generates a distribution request based on the measurement result of the signal measurement unit 413.

  The distribution request generation unit 414, for example, based on a measurement value that is a measurement result by the signal measurement unit 413 and a quality threshold value for determining whether or not communication between the wireless terminal 120 and the small base station 400 is possible, It is determined whether to generate a distribution request. In this example, the distribution request generation unit 414 generates a distribution request when the measurement result of the signal measurement unit 413 exceeds the quality threshold, and suppresses generation of the distribution request when the measurement value is equal to or lower than the quality threshold. To do.

  In addition, the distribution request generation unit 414 may generate a distribution request indicating a ratio of other data transferred by the small transfer device 300 to a part of data transferred by the large transfer device 200, for example.

  In this case, the distribution request generation unit 414 increases the ratio of the second distribution data (other data) to the first distribution data (partial data) as the signal quality of the received signal of the data request is higher (hereinafter, The distribution request indicating “distribution ratio” is increased.

  For example, the distribution request generation unit 414 holds a correspondence table indicating a distribution ratio corresponding to each of a plurality of quality threshold values, and sets a distribution ratio based on the measurement result and the plurality of quality threshold values. Thereby, an increase in the error rate of the second distribution data transferred from the small transfer device 300 to the wireless terminal 120 can be suppressed.

  The distribution request generation unit 414 supplies the distribution request to the data processing unit 415. Distribution request generation unit 414 can be generally referred to as generation means.

  The data processing unit 415 performs data processing on the signal supplied from the terminal signal receiving unit 411. For example, the data processing unit 415 demodulates the signal from the terminal signal receiving unit 411 and converts the demodulated signal into a signal for transmission to the line connection unit 310.

  In addition, the data processing unit 415 transmits the distribution request generated by the distribution request generation unit 414 to the network control device 110 via the line connection unit 310. Specifically, the data processing unit 415 determines whether or not the signal from the terminal signal processing unit 411 is a data request.

  When the data processing unit 415 receives a distribution request from the distribution request generation unit 414 when the signal from the terminal signal processing unit 411 is a data request, the data processing unit 415 transmits the distribution request via the signal line 319 to the line connection unit. To 310.

  On the other hand, when the signal from the terminal signal processing unit 411 is not a data request, the data processing unit 415 suppresses transmission of the distribution request even if the distribution request is received from the distribution request generation unit 414. Data processing unit 415 can be generally referred to as transmission means.

  The distribution data transfer unit 420 transfers the second distribution data transmitted from the network control device 110 to the wireless terminal 120. Distribution data transfer unit 420 can be generally referred to as transfer means.

  The distribution data transfer unit 420 transfers one of the request data transferred to the wireless terminal 120 to the wireless terminal 120 via the large transfer device 300 when the network control device 110 receives the data request and the distribution request. Second distribution data other than the part data is received.

  The distribution data transfer unit 420 transfers the second distribution data to the wireless terminal 120. The distribution data transfer unit 420 includes a data processing unit 421 and a radio signal transmission unit 422.

  The data processing unit 421 performs data processing on the second distribution data transmitted from the network control device 110 via the signal line 319. The data processing unit 421 supplies the data subjected to the data processing to the wireless signal transmission unit 422.

  The wireless signal transmission unit 422 transmits the data supplied from the data processing unit 421 to the wireless terminal 120 as a wireless signal. The wireless signal transmission unit 422 includes an antenna 402 and a D / A (Digital to Analog) conversion unit 423.

  The D / A converter 423 converts the digital signal supplied from the data processor 421 into an analog signal. The wireless signal transmission unit 422 transmits the converted signal via the antenna 402.

  The antenna 402 is a transmission antenna that converts an electrical signal supplied from the D / A conversion unit 423 into a radio signal. Note that the antenna 402 may be shared with the antenna 401.

  Next, the operation of the communication system 100 when a data request is transmitted from the wireless terminal 120 will be described.

  FIG. 3 is a sequence chart illustrating an example of a processing procedure of the communication system 100 when a distribution request is transmitted from the small transfer device 300 when a data request is transmitted from the wireless terminal 120.

  First, a data request is transmitted from the wireless terminal 120 to the large transfer device 200 by a wireless signal (711). Next, when receiving a data request from the wireless terminal 120, the large transfer device 200 transfers the data request to the network control device 110 (712).

  At this time, the small transfer device 300 receives the data request radio signal transmitted from the radio terminal 120 and measures the received signal (721). If the measurement result exceeds the quality threshold value, the small transfer device 300 transmits a distribution request to the network control unit 110 (722).

  In addition, when receiving a data request from the large transfer device 200, the network control device 110 acquires request data specified by the data request. Thereafter, upon receiving a distribution request from the small transfer apparatus 300, the network control apparatus 110 distributes the requested data (731).

Subsequently, the network control device 110 transmits a part of the request data as the first distribution data to the large transfer device 200 and transmits the other data as the second distribution data to the small transfer device 300 ( 731)
Next, the large transfer device 200 transfers the second distribution data transmitted from the network control device 110 to the wireless terminal 120 (732). On the other hand, the small transfer device 300 transfers the second distribution data transferred from the network control device 110 to the wireless terminal 120 (733).

  The wireless terminal 120 receives the data requested by the data request by combining the first and second distribution data transferred from the large transfer device 200 and the small transfer device 300, respectively.

  In this embodiment, the example in which the data request is transmitted from the wireless terminal 120 to the network control apparatus 110 via the large transfer apparatus 200 has been described. However, the data request is transmitted via the small transfer apparatus 300. May be. Here, an example in which a data request is transferred from the wireless terminal 120 via the small transfer device 300 will be briefly described with reference to the following diagram.

  FIG. 4 is a sequence chart illustrating an example of a processing procedure of the communication system 100 when a distribution request is transmitted when a data request is transmitted from the wireless terminal 120 to the network control device 110 via the small transfer device 300. .

  In this example, since the processes 721 to 723 and 731 to 734 are the same as those shown in FIG. 3, the same reference numerals as those in FIG.

  First, a data request is transmitted from the wireless terminal 120 to the small transfer device 300 by a wireless signal (811). Next, when receiving the data request from the wireless terminal 120, the small transfer device 300 transfers the data request to the network control device 110 (812).

  According to the first embodiment, in the small transfer device 300, the signal measuring unit 413 determines the communication state with the wireless terminal 120 by measuring the quality of the wireless signal transmitted from the wireless terminal 120. be able to.

  Further, in the small transfer device 300 according to the first embodiment, the distribution request generation unit 414 further communicates with the wireless terminal 120 by determining whether the distribution request can be generated based on the measurement result from the signal measurement unit 413. Distribution requests can be generated when possible.

  That is, in the first embodiment, the small transfer device 300 can instruct the network control device 110 to distribute the requested data requested by the data request by transmitting the distribution request to the network control device 110. .

  In the first embodiment, the network control device 110 further distributes the request data requested from the wireless terminal 120 to the small transfer device 300 and the large transfer device 200 based on the distribution request from the small transfer device 300. .

  Thereby, since the communication system 100 can transfer the request data indicated in the data request through the two transmission paths, the transfer rate for the request data can be increased. That is, by effectively utilizing the two systems, the small transfer device 300 and the large transfer device 200, the transfer speed can be improved compared to a single system.

  Further, the network control device 100 transmits the first and second distribution data different from each other to the small transfer device 300 and the large transfer device 200, thereby suppressing network congestion caused by the transmission of overlapping data. it can.

  Further, in the first embodiment, the distribution request generation unit 414 increases the signal quality indicated in the measurement result by the signal measurement unit 413, and the small transfer device 300 for a part of data transferred by the large transfer device 200. Set the percentage of other data transferred to high.

  Thereby, the communication system 100 can increase the transfer amount of the second distribution data when the error rate of the second distribution data transmitted from the small transfer device 300 to the wireless terminal 120 is low. For this reason, it is possible to reduce a decrease in transfer rate due to a retransmission process performed between the wireless terminal 120 and the small transfer device 300.

  In the small transfer device 300 according to the first embodiment, the data processing unit 415 transmits a distribution request when the wireless signal transmitted from the wireless terminal 120 is a data request. Thereby, the small transfer device 300 can transmit a distribution request based on the communication quality with the wireless terminal 120 when the data request is transmitted from the wireless terminal 120 to the network control device 110.

  That is, even when the position of the wireless terminal 120 changes with time, the small transfer device 300 transmits a distribution request when the wireless environment is good at the timing when the data request is transmitted from the wireless terminal 120. To do. For this reason, the small transfer device 300 can transmit a transfer request according to the movement status of the wireless terminal 120.

  In the first embodiment, the wireless terminal 120 combines the first and second distribution data transferred from the small transfer device 300 and the large transfer device 200, respectively, thereby requesting data requested by the data request. Can be restored.

  As a result, the wireless terminal 120 can shorten the time required for downloading. That is, the communication system 100 can realize the best effort type high-speed transfer.

  When the communication quality between the large transfer device 200 and the wireless terminal 120 is poor, retransmission requests are frequently transmitted from the wireless terminal 120 to the large transfer device 200. For this reason, the wireless terminal 120 may take a long time to restore the first and second distribution data transferred from the large transfer device 200 and the small transfer device 300 to the original request data.

  Therefore, the following diagram is shown for the second embodiment in which improvements are made in order to suppress an increase in the time required to restore the requested data when the communication quality between the large transfer device 200 and the wireless terminal 120 is poor. The description will be given with reference.

  FIG. 5 is a block diagram illustrating a configuration example of a small base station according to the second embodiment of the present invention. The small base station 500 includes a base station data acquisition unit 510 and a retransmission processing unit 520 in addition to the configuration of the small base station 400 shown in FIG. In FIG. 5, only the base station data acquisition unit 510 and the retransmission processing unit 520 are shown for convenience.

  The base station data acquisition unit 510 includes a base station signal reception unit 511, a data processing unit 513, and a base station data holding unit 514. The retransmission processing unit 520 includes a terminal signal reception unit 521, a retransmission request determination unit 523, a retransmission request processing unit 524, and a radio signal transmission unit 525.

  In the second embodiment, since the wireless terminal 120 cannot normally receive the first distribution data transferred from the large transfer device 200, a retransmission request for the first distribution data that cannot be received is transmitted from the wireless terminal 120. Assume the case.

  The base station data acquisition unit 510 acquires first distribution data (partial data) transferred from the large transfer device 200 to the wireless terminal 120, and holds the acquired first distribution data. is there. Base station data acquisition section 510 can generally be referred to as holding means.

  The base station signal receiving unit 511 receives a radio signal transferred from the base station 220 to the radio terminal 120. The base station signal reception unit 511 includes an antenna 403 and an A / D conversion unit 512.

  The antenna 403 is a receiving antenna that converts a radio signal transmitted from the large transfer device 200 into an electric signal. The antenna 403 is connected to the A / D conversion unit 412 and the signal measurement unit 413. Note that the antenna 403 may be shared with the antennas 401 and 402.

  The A / D conversion unit 512 converts an analog signal that is an electric signal generated in the antenna 403 into a digital signal. The A / D conversion unit 512 supplies the converted digital signal to the data processing unit 514.

  The data processing unit 513 performs data processing on the digital signal supplied from the base station signal receiving unit 511. When the received signal from the base station signal receiving unit 511 is the first distribution data, the data processing unit 513 holds the first distribution data in the base station data holding unit 514. On the other hand, when the signal from the base station signal receiving unit 511 is not the first distribution data, the data processing unit 513 discards the data.

  The base station data holding unit 514 is a memory that holds the first distribution data transferred from the large transfer device 200 to the wireless terminal 120. Base station data holding section 514 outputs the held first distribution data to retransmission request processing section 524.

  When receiving a retransmission request transmitted from the wireless terminal 120 to the large transfer device 200, the retransmission processing unit 520 performs a retransmission process for transmitting the data held in the base station data acquisition unit 510 to the wireless terminal 120. It is. Retransmission processing unit 520 can be generally referred to as retransmission processing means.

  The terminal signal receiving unit 521 receives a wireless signal transmitted from the wireless terminal 120. The terminal signal reception unit 521 includes an antenna 404 and an A / D conversion unit 522.

  The antenna 403 is a receiving antenna that converts a radio signal transmitted from the radio terminal 120 to the large transfer device 200 into an electric signal. The antenna 403 is connected to the A / D conversion unit 522. Note that the antenna 403 may be shared with the antennas 401 to 403.

  The A / D conversion unit 522 converts an analog signal that is an electric signal generated in the antenna 404 into a digital signal. The A / D conversion unit 522 supplies the converted digital signal to the retransmission request determination unit 523.

  The retransmission request determination unit 523 instructs execution of retransmission processing based on a retransmission request transmitted from the wireless terminal 120 to the large transfer device 200. The retransmission request determination unit 523 determines whether the signal supplied from the A / D conversion unit 522 is a retransmission request.

  Then, if the signal supplied from A / D converter 522 is a retransmission request from wireless terminal 120, retransmission request determination section 523 uses retransmission request processing section 524 for the retransmission information indicated in the retransmission request. To supply.

  On the other hand, if the signal supplied from A / D conversion section 522 is not a retransmission request from wireless terminal 120, retransmission request determination section 523 discards the signal.

  When retransmission information is supplied from retransmission request determination section 523, retransmission request processing section 524 performs retransmission processing for transmitting the first distribution data held in base station data holding section 514 to radio terminal 120. Is.

  When receiving retransmission information from retransmission request determining section 523, retransmission request processing section 524 refers to base station data holding section 514 and identifies first distribution data indicated in the retransmission information. In addition, retransmission request processing section 524 executes retransmission processing for transmitting the identified first distribution data to wireless terminal 120. The retransmission request processing unit 524 supplies the data subjected to the retransmission process to the wireless signal transmission unit 525.

  The wireless signal transmission unit 525 transmits the first distribution data supplied from the retransmission request processing unit 524 to the wireless terminal 120 as a wireless signal. The wireless signal transmission unit 525 includes an antenna 405 and a D / A conversion unit 526.

  The D / A conversion unit 526 converts the digital signal that is the first distribution data supplied from the retransmission request processing unit 524 into an analog signal. The wireless signal transmission unit 422 transmits the converted signal via the antenna 405.

  The antenna 405 is a transmission antenna that converts an electrical signal supplied from the D / A conversion unit 526 into a radio signal. Note that the antenna 405 may be shared with the antennas 401 to 404.

  Next, operation | movement of the communication system 100 provided with the small base station 400 in 2nd Embodiment is demonstrated.

  FIG. 6 is a sequence chart illustrating an example of a processing procedure of the communication system 100 when a retransmission request is transmitted from the wireless terminal 120 to the large transfer device 200.

  In this example, processes 711 and 712, 721 to 723, and 731 to 734 are the same as the processes shown in FIG. 3, and thus the same reference numerals as those in FIG.

  After the first and second distribution data are transferred from the large transfer device 200 and the small transfer device 300 to the wireless terminal 120 in processes 732 and 732, the small transfer device 300 transfers the data from the large transfer device 200 to the wireless terminal 120. The received first distribution data is received. Then, the small transfer device 300 holds the first distribution data in the base station data holding unit 514 (751).

  Next, the wireless terminal 120 receives the first and second distribution data transferred from the large transfer device 200 and the small transfer device 300. At this time, the wireless terminal 120 cannot accurately decode the first distribution data from the large transfer device 200 because the communication quality between the large transfer device 200 and the wireless terminal 120 is poor (752).

  For this reason, the wireless terminal 120 transmits a retransmission request to the large transfer device 200 for the portion of the first distribution data that could not be decoded (753). At this time, the small transfer device 300 receives the retransmission request transmitted from the wireless terminal 120 to the large transfer device 200 (754). Then, the small transfer device 300 transmits the first distribution data held in the base station data holding unit 514 to the wireless terminal 120 based on the retransmission request.

  Thereafter, the wireless terminal 120 restores the original request data by correctly decoding the second distribution data based on the retransmission request (734).

  According to the second embodiment, the base station data acquisition unit 510 holds the first distribution data transferred from the large transfer device 200 to the wireless terminal 120. Furthermore, when the retransmission processing unit 520 receives a retransmission request transmitted from the wireless terminal 120 to the large transfer device 200, the retransmission processing unit 520 transmits the first distribution data held in the base station data acquisition unit 510 to the wireless terminal 120.

  Thereby, since the communication system 100 has poor communication quality between the large transfer device 200 and the wireless terminal 120, the wireless terminal 120 cannot correctly decode the first distribution data from the large transfer device 200. The first distribution data can be retransmitted from the small transfer device 300 that can communicate with the wireless terminal 120.

  For this reason, the communication system 100 can reduce the number of times the retransmission processing is performed by the wireless terminal 120 due to communication degradation between the wireless terminal 120 and the large transfer device 200, and therefore the time required for restoring the requested data is reduced. It can be shortened.

  Furthermore, congestion of the wireless network of the large transfer device 200 due to repetition of retransmission processing between the large transfer device 200 and the wireless terminal 120 can be suppressed. That is, a decrease in transfer rate in the communication system 100 can be suppressed.

  When the communication quality of both the wireless terminal 120 and the large transfer device 200 and the small transfer device 300 is poor, the same request data is sent from the network control device 110 to the large transfer device 200 and the small transfer device 300. Each may be transmitted.

  In this case, for example, the small transfer device 300 counts the number of retransmission requests from the wireless terminal 120 to the large transfer device 200 and the small transfer device 300 itself. Then, the small transfer device 300 transmits communication deterioration information to the network control device 110 when the number of retransmission requests of both exceeds a predetermined retransmission threshold. As a result, the network control device 110 transmits the same request data to both the large transfer device 200 and the small transfer device 300.

  Further, when a data request is transmitted from the wireless terminal 120 in a communication range other than the communication range 201, the request data requested by the data request is transmitted to the wireless terminal 120 due to network congestion, communication quality degradation, or the like. May not be received.

  In this case, when the small transfer device 300 has an access restriction function, the request data that could not be received is transferred from the network control device 110 to the base station data acquisition unit 510. Then, when the wireless terminal 120 moves within the communication range 301, the retransmission processing unit 520 may transmit the request data held in the base station data acquisition unit 510 to the wireless terminal 120.

  In the first and second embodiments, an example in which there is one small transfer device 300 that can communicate with the wireless terminal 120 has been described, but there are a plurality of small transfer devices 300 that can communicate with the communication terminal 120. It can also be applied to. In this case, since the number of small transfer devices 300 that can transfer the request data increases, the transfer rate of the request data to the wireless terminal 120 can be further improved.

  In the first and second embodiments, the example in which the request data is transferred from the network control apparatus 110 to the wireless terminal 120 has been described. can do.

  In this case, when the network control apparatus 110 receives a data request for requesting transfer of data held in the wireless terminal 120 from a communication terminal connected to the public network 130, for example, the wireless terminal 120 via the large transfer apparatus 200. Send a data request to

  At this time, the small transfer device 300 receives a data request transmitted from the large transfer device 200 to the wireless terminal 120 and measures the quality of the received signal. When the measurement result exceeds the quality threshold, the small transfer device 300 transmits a distribution request to the wireless terminal 120.

  The wireless terminal 120 specifies request data in response to a data request from the large transfer device 200. Further, based on the distribution request from the small transfer device 300, the wireless terminal 120 distributes a part of the requested data to the large transfer device 200 and the other data to the small transfer device 300.

  Then, network control device 110 combines the distribution data transmitted from large transfer device 200 and small transfer device 300, respectively, and transfers the combined original request data to the communication terminal that is the transmission source of the data request. .

  Thereby, even when request data is transferred from the wireless terminal 120 to the network control device 110, the data transfer speed in the communication system 100 can be improved. In this case, the wireless terminal 120 has a distribution function for distributing request data, the network control device 110 has a combining function for combining distribution data, and the small transfer device 300 has a wireless terminal from the large transfer device 200 to the wireless terminal. A reception function for receiving a data request transmitted to 120 is required.

  Each of the above embodiments may be applied to a communication system defined by 3GPP (Third Generation Partnership Project) and a communication system defined by GMS (Global System for Mobile Communications).

  In each embodiment described above, the illustrated configuration is merely an example, and the present invention is not limited to the configuration.

DESCRIPTION OF SYMBOLS 100 Communication system 110 Network control device 120 Wireless terminal 200 Large transfer device 210 Base station control device 220 Base station 300 Small transfer device 310 Line connection unit 400, 500 Small base station 401-404 Antenna 411, 521 Terminal signal reception unit 412, 512 522 A / D conversion unit 413 Signal measurement unit 414 Distribution request generation unit 415, 421, 513 Data processing unit 422, 525 Radio signal transmission unit 423, 526 D / A conversion unit 510 Base station data acquisition unit 511 Base station signal reception Unit 514 base station data holding unit 520 retransmission processing unit 523 retransmission request determining unit 524 retransmission request processing unit

Claims (11)

A transfer device connected to a control device capable of communicating with a wireless terminal that transmits a data request for requesting predetermined data as a wireless signal via a specific transfer device,
Receiving means for receiving a data request radio signal transmitted from the radio terminal;
Measuring means for measuring the signal quality of the radio signal received by the receiving means;
Generating means for generating a distribution request for requesting distribution of the predetermined data requested in the data request when a measurement result in the measuring means exceeds a threshold;
Transmitting means for transmitting the distribution request generated by the generating means to the control device;
Of the predetermined data transferred to the wireless terminal when the control device receives the data request and the distribution request, other than some data transferred to the wireless terminal via the specific transfer device A transfer unit that receives distribution data and transfers the distribution data to the wireless terminal. The transfer device according to claim 1,
Holding means for holding the partial data transferred from the specific transfer device to the wireless terminal;
Retransmission processing means further comprising: a retransmission processing means for performing a retransmission process for transmitting data held in the holding means to the wireless terminal when receiving a retransmission request transmitted from the wireless terminal to the specific transfer apparatus . The transfer device according to claim 1 or 2,
The transfer unit is configured to set the ratio of the distribution data to the partial data higher as the signal quality indicated in the measurement result is higher, and generate the ratio as the distribution request. A wireless terminal that transmits a data request for requesting predetermined data as a wireless signal, and when receiving the data request from the wireless terminal, forwards the predetermined data requested by the data request to the wireless terminal In a communication system including a control device that performs, and first and second transfer devices that respectively connect between the wireless terminal and the control device,
The first transfer device measures the signal quality of the radio signal of the data request, generates a distribution request when the measurement result exceeds a threshold, and transmits the distribution request to the control device,
When the control device receives the data request from the wireless terminal and the distribution request from the first transfer device, the control device sends a part of the predetermined data to the second transfer device. Transferring the distribution data other than the part of the data to the wireless terminal via the first transfer device to the wireless terminal via
The wireless terminal generates the predetermined data based on the partial data from the second transfer device and the distribution data from the first transfer device. The communication system according to claim 4,
When the wireless terminal cannot receive the part of data from the second transfer device, it transmits a retransmission request to the second transfer device,
The first transfer device includes:
Holding means for holding the partial data transferred from the second transfer device to the wireless terminal;
A retransmission processing unit for performing a retransmission process for transmitting the data held in the holding unit to the wireless terminal when receiving the retransmission request transmitted from the wireless terminal to the second transfer device; ,Communications system. The communication system according to claim 4 or 5,
A communication system further comprising a plurality of the first transfer devices. The communication system according to any one of claims 4 to 6,
The control device is a core network device,
The first transfer device is a femtocell base station;
The second transfer device has a plurality of second transfer means and a transfer control means for controlling the plurality of second transfer means,
Each of the plurality of second transfer means is a macro cell base station,
The transfer control means is a communication system, which is a base station control device. A transfer method in a transfer device connected to a control device capable of communicating with a wireless terminal that transmits a data request for requesting predetermined data as a wireless signal via a specific transfer device,
Receiving a data request radio signal transmitted from the radio terminal;
A measuring step of measuring the signal quality of the radio signal received by the receiving step;
A generation step for generating a distribution request for requesting distribution of the predetermined data requested in the data request when a measurement result in the measurement step exceeds a threshold;
A transmission step of transmitting the distribution request generated by the generation step to the control device;
Of the predetermined data transferred to the wireless terminal when the control device receives the data request and the distribution request, other than some data transferred to the wireless terminal via the specific transfer device Receiving a distribution data and transferring the distribution data to the wireless terminal. The transfer method according to claim 8, wherein
A holding step of holding the partial data transferred from the second transfer device to the wireless terminal;
A retransmission processing step of performing a retransmission process for transmitting the data held by the holding step to the wireless terminal when receiving a retransmission request transmitted from the wireless terminal to the second transfer device; Transfer method. A wireless terminal that transmits a data request for requesting predetermined data as a wireless signal, and when receiving the data request from the wireless terminal, forwards the predetermined data requested by the data request to the wireless terminal A transfer method in a communication system including: a control device that performs communication; and first and second transfer devices that connect the wireless terminal and the control device, respectively.
The first transfer device measures the signal quality of the radio signal of the data request, generates a distribution request when the measurement result exceeds a threshold value, and transmits the distribution request to the control device Steps,
When the control device receives the data request from the wireless terminal and the distribution request from the first transfer device, a part of the predetermined data is transferred to the second transfer device. A transfer step of transferring distribution data other than the partial data to the wireless terminal via the first transfer device to the wireless terminal via
A transfer step in which the wireless terminal generates the predetermined data based on the partial data from the second transfer device and the distribution data from the first transfer device; Method. The transfer method according to claim 10, wherein
A holding step in which the first transfer device holds the partial data transferred from the second transfer device to the wireless terminal;
A retransmission request step for transmitting a retransmission request to the second transfer device when the wireless terminal cannot receive the partial data from the second transfer device;
When the first transfer device receives the retransmission request transmitted from the wireless terminal to the second transfer device, the first transfer device performs a retransmission process for transmitting the data held in the holding step to the wireless terminal. And a retransmission processing step.

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