WO2002003571A1 - Dispositif et procede de communication sans fil - Google Patents
Dispositif et procede de communication sans fil Download PDFInfo
- Publication number
- WO2002003571A1 WO2002003571A1 PCT/JP2001/005696 JP0105696W WO0203571A1 WO 2002003571 A1 WO2002003571 A1 WO 2002003571A1 JP 0105696 W JP0105696 W JP 0105696W WO 0203571 A1 WO0203571 A1 WO 0203571A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- directivity
- change
- antenna
- beam width
- array
- Prior art date
Links
Classifications
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B7/00—Radio transmission systems, i.e. using radiation field
- H04B7/02—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B7/00—Radio transmission systems, i.e. using radiation field
- H04B7/02—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas
- H04B7/04—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas
- H04B7/06—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas at the transmitting station
- H04B7/0613—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas at the transmitting station using simultaneous transmission
- H04B7/0615—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas at the transmitting station using simultaneous transmission of weighted versions of same signal
- H04B7/0617—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas using two or more spaced independent antennas at the transmitting station using simultaneous transmission of weighted versions of same signal for beam forming
Definitions
- the present invention relates to a wireless communication device and a wireless communication method, and more particularly to array antenna control of a wireless communication device.
- the transmitted data may not be received with the correct value due to the influence of the route.
- the transmitting side transmits the data to the receiving side, and the receiving side determines the error of the received data, and if there is an error, transmits a retransmission request to the transmitting side. Then, upon receiving a retransmission request from the receiving side, the transmitting side transmits the data with the same directivity or beam width of the array of the transmitting antenna as when the data was transmitted first. Also, when the transmitting side transmits the next data after the data is correctly received, the transmitting side shall transmit with the same directivity or beam width of the transmitting antenna array as when the first transmission was performed.
- An object of the present invention is to provide a wireless communication device and a wireless communication method capable of reducing the number of retransmissions and improving transmission efficiency.
- the purpose of this is to detect errors at the receiving side and measure the line conditions at the time of reception, and based on this line conditions, the directivity or beam width of the array of the transmitting antenna when the transmitting side transmits or retransmits data. Is determined, and transmission is performed with a suitable directivity or beam width of an array of transmitting antennas during transmission or retransmission.
- FIG. 1 is a block diagram showing a configuration of a wireless communication device according to Embodiment 1 of the present invention.
- FIG. 2 is a block diagram showing a configuration of a wireless communication apparatus according to Embodiment 2 of the present invention.
- FIG. 1 is a block diagram showing a configuration of a wireless communication device according to Embodiment 1 of the present invention.
- wireless communication apparatus 100 and wireless communication apparatus 150 perform wireless communication with each other.
- the buffer 101 stores the transmission data, and outputs the transmission data to the transmission frame creation unit 102 in accordance with an instruction output from an array directivity switching determination unit 114 described later.
- the transmission frame creation unit 102 constructs a transmission frame from the transmission data output from the buffer 101 and outputs the transmission frame to the modulation unit 103.
- Modulation section 103 modulates the transmission frame and outputs the result to transmission radio section 104.
- the transmission radio section 104 performs radio processing on the output signal of the modulation section 103 and outputs the transmission signal to the transmission array directivity control section 105.
- the transmission array directivity control unit 105 applies a weight to the transmission signal output from the transmission radio unit 104 in accordance with the instruction from the array directivity switching control unit 115, via the antenna sharing unit 106. Output to antenna 107, antenna 108 and antenna 109. Further, the transmission array directivity control unit 105 does not change the weight of the transmission signal when the directivity or the beam width of the array of the transmission antenna is not changed.
- Antenna sharing section 106 wirelessly transmits the transmission signal output from transmission array directivity control section 105 from antenna 107, antenna 108, and antenna 109. Also, antenna sharing section 106 outputs the radio signals received by antenna 107, antenna 108, and antenna 109 to reception array directivity control section 110 as reception signals.
- the antenna 107, the antenna 108, and the antenna 109 each wirelessly transmit the transmission signal output from the antenna common unit 106, and output the received wireless signal to the antenna common unit 106. .
- the reception array directivity control unit 110 estimates the direction of arrival of the received wave from the phase difference and the power difference of the signals received by the antenna 107, the antenna 108, and the antenna 109, respectively.
- Information indicating the direction of arrival (hereinafter, “direction of arrival information”) is output to the array directivity switching control unit 115. Further, reception array directivity control section 110 outputs the reception signal output from antenna sharing section 106 to reception radio section 111.
- Receiving radio section 111 performs radio processing on the received signal and outputs it to demodulation section 112.
- Demodulation section 112 demodulates the reception signal output from reception radio section 111 and outputs the demodulated signal to separation section 113.
- the demultiplexer 1 13 receives the received signal output from the demodulator 1 12 Information indicating the quality of the received signal (hereinafter referred to as “reception quality information”) and a signal requesting transmission of the next data (hereinafter referred to as “ACK signal”) or a signal requesting retransmission of data (hereinafter referred to as “ACK signal”) , And “NACK signal”), and outputs the received data, and outputs the ACK signal or NACK signal and the reception quality information to the array directivity switching determination unit 114.
- reception quality information indicating the quality of the received signal
- ACK signal a signal requesting transmission of the next data
- ACK signal a signal requesting retransmission of data
- NACK signal And
- the array directivity switching determination section 1 14 stores the reception quality information output from the separation section 113 and, when receiving a NACK signal, directivity of the array of the transmitting antenna based on the reception quality information. Alternatively, it is determined whether to change the beam width, and an instruction to change or not change the directivity of the array of the transmitting antenna or the beam width is output to the array directivity switching control unit 115 based on the result of the determination. Then, an instruction to retransmit the data is output to the buffer 101.
- the array directivity switching determination unit 114 determines whether or not to change the directivity or the beam width of the array of the transmitting antenna based on the reception quality information. Outputs an instruction to change or not change the array directivity or beam width of the transmitting antenna to the array directivity switching control unit 115, and outputs an instruction to transmit the next data to the buffer 101. I do.
- the array directivity switching control unit 115 when an instruction to switch the array directivity or beam width of the transmitting antenna is output from the array directivity switching determination unit 114, Calculate the weight to be transmitted by each antenna based on the output direction-of-arrival information, output the weight to the transmission array directivity controller 1 ⁇ 5, and output an instruction to change the directivity or beam width of the transmission antenna array I do.
- the transmitting array directivity control unit 105 transmits the directivity or beam width of the transmitting antenna array. Output an instruction not to change
- Antenna 1501 is antenna 107, antenna 108 and antenna 109 It receives the radio signal transmitted from it and outputs it to antenna sharing section 152. Also, antenna 151 transmits the transmission signal output from antenna sharing section 152 as a radio signal.
- Antenna sharing section 15 2 outputs the received signal output from antenna 15 1 to reception radio section 15 3.
- antenna sharing section 152 outputs the transmission signal output from transmission radio section 159 to antenna 151.
- Receiving radio section 153 performs radio processing on the received signal output from antenna sharing section 152 and outputs the signal to demodulation section 154 and reception quality measuring section 155.
- Demodulation section 154 demodulates the reception signal output from reception radio section 153 and outputs the obtained reception frame to error detection section 156.
- Reception quality measurement section 155 measures the quality of the reception signal output from reception radio section 153, and outputs reception quality information indicating the obtained reception quality to transmission frame creation section 157.
- the error detection unit 156 determines whether there is an error in the data of the received frame output from the demodulation unit 154, and if there is an error in the received data, A NACK signal requesting retransmission is output to transmission frame generator 157. If there is no error in the received data, an ACK signal requesting transmission of the next data is output to transmission frame generating section 157, and the received data without error is output.
- the transmission frame creation section 157 creates a transmission frame from the transmission data, the reception quality information, the ACK signal or the NACK signal, and outputs it to the modulation section 158.
- Modulating section 158 modulates the transmission frame and outputs it to transmission radio section 159 as a transmission signal.
- the transmission radio section 159 performs radio processing on the transmission signal output from the modulation section 158 and outputs the signal to the antenna sharing section 152.
- the transmission data is stored in the buffer 101, output from the buffer 101 to the transmission frame generation unit 102 according to the instruction from the array directivity switching determination unit 114, and transmitted by the transmission frame generation unit 102. It is configured as a frame and output to modulation section 103.
- the transmission frame is modulated by the modulation section 103 and output to the transmission radio section 104, processed by the transmission radio section 104 by radio, and transmitted array directivity control section 105 and antenna sharing section 106.
- the signal is output as a radio signal through the antenna 107, the antenna 108, and the antenna 109.
- the radio signal transmitted from radio communication apparatus 100 is output to reception radio section 153 as a reception signal through antenna 151 and antenna sharing section 152.
- the received signal is subjected to radio processing in the receiving radio section 153, output to the demodulation section 154 and the reception quality measurement section 155, demodulated in the demodulation section 154, and received as an error detection section 1 as a reception frame. Output to 5-6.
- the reception quality of the received signal is measured by a reception quality measurement section 155, and reception quality information indicating the obtained reception quality is output to the transmission frame creation section 157.
- the received frame is judged by the error detection unit 156 as to whether there is an error in the data of the received frame. If there is an error, the NACK signal of the erroneous data is sent to the transmission frame creation unit 157 If there is no error, the ACK signal of the data with no error is output to the transmission frame creation section 157, and the received data is output.
- the reception quality information and the ACK signal or the NACK signal are configured as a transmission frame together with the transmission data in the transmission frame generation unit 157.
- the transmission frame is modulated by the modulation section 158 and output to the transmission radio section 159, the radio processing is performed by the transmission radio section 159, and the radio signal is transmitted through the antenna common section 152 and the antenna 151. Is output as
- the wireless signal transmitted from the wireless communication device 150 is transmitted to the antenna 107, 108, antenna 109, antenna common use unit 106, received array directivity control unit 110, received as a received signal to receive radio unit 111, received radio in receive radio unit 111 Processing is performed and output to demodulation section 112, demodulated in demodulation section 112 and output to separation section 113. Also, in the reception array directivity control unit 110, the antenna 107, the antenna 108, and the antenna 109 estimate the direction of arrival of the received wave from the phase difference and power difference of the signals respectively received, and The direction information is output to the array directivity switching control unit 115.
- the reception signal is separated into reception data, reception quality information, and an ACK signal or a NACK signal by the separation unit 113, and the reception data is output.
- the reception quality information and the ACK signal or the NACK signal are used to determine the array directivity switching. Output to the sections 1 1 and 4.
- the reception quality information is stored in the array directivity switching determination unit 114, and it is determined whether to change the array directivity or the beam width of the transmission antenna based on the reception quality information.
- An instruction to change or not change the directivity of the array or the beam width is output to the array directivity switching control unit 115.
- the array directivity switching control unit 115 When the directivity or beam width of the array of the transmitting antenna is changed, the array directivity switching control unit 115 based on the arrival direction information output from the reception array directivity control unit 110 The weight to be transmitted by each antenna is calculated, and the weight is output to the transmission array directivity control unit 105, and an instruction to change the directivity of the array of the transmitting antenna or the beam width is transmitted by the transmission array directivity control. Output to the unit 105.
- an instruction not to change the directivity or the beam width of the array of the transmitting antenna is issued by the array directivity switching control unit 115.
- the transmission data to be retransmitted is output from buffer 101 to transmission frame creation unit 102, and transmitted frame
- the signal is formed as a transmission frame by the system generation unit 102, output to the modulation unit 103, modulated by the modulation unit 103, output to the transmission radio unit 104, and transmitted by the transmission radio unit 104. It is processed and output as a radio signal through the antenna sharing unit 106, the antenna 107, the antenna 108, and the antenna 109 with the phase or power value of the signal controlled by the transmission array directivity control unit 105. , Ann Na 1 5 1, and output to reception radio section 1 5 3 as a reception signal through ⁇ antenna duplexer 1 5 2.
- the data to be transmitted next is configured as a transmission frame in the transmission frame creation unit 102 and output to the modulation unit 103, modulated in the modulation unit 103 and output to the transmission radio unit 104.
- the transmission radio section 104 performs radio processing and uses the phase or power value of a signal controlled by the transmission array directivity control section 105 to control the antenna shared section 106, antenna 107, antenna 108, and It is transmitted as a radio signal through antenna 109 and output to reception radio section 153 as a reception signal through antenna 151 and antenna shared section 152.
- the radio communication apparatus of the present embodiment it is possible to change the directivity or beam width of the array of the transmitting antenna based on the quality information of the received signal and transmit the signal with the optimal directivity according to the line condition. Therefore, the number of retransmissions can be reduced.
- the array directivity switching determination section 114 directs the directivity of the array of the transmitting antenna to the main wave and other than the main wave when the quality of the stored reception quality information is low. In this way, it is also possible to instruct the array directivity switching control unit 115 to change the directivity of the array of the transmitting antenna.
- the transmitting antenna can be directed toward a path other than the main wave, and a path diversity effect can be obtained on the receiving side.
- the number of retransmissions can be reduced.
- the array directivity switching determination unit 114 sends an instruction to the array directivity control unit 115 to increase the beam width of the directivity of the transmission antenna and transmit a signal. You can also output.
- the array directivity switching determination unit 114 sends an instruction to narrow the beam width of the directivity of the transmitting antenna to transmit a signal. It can also be output to the control unit 115.
- the array directivity switching determining unit 114 measures the level of the stored reception quality information, and issues an instruction to change the beam width corresponding to the level in a stepwise manner. Can also be output.
- the beam width of the directivity of the transmitting antenna can be changed stepwise based on the reception quality information, so that transmission can be performed with the optimal directivity according to the line conditions, and the number of retransmissions can be reduced. be able to.
- the array directivity switching determination unit 114 can also limit the change in the directivity or beam width of the array of the transmitting antenna. As a result, interference with other users can be prevented by limiting the range in which signals are transmitted.
- FIG. 2 is a block diagram showing a configuration of a wireless communication device according to Embodiment 2 of the present invention.
- components having the same configuration as in FIG. 1 are denoted by the same reference numerals as in FIG. 1, and detailed description is omitted.
- the wireless communication device 200 and the wireless communication device 250 end the first communication with each other.
- the buffer 101 stores the transmission data, and outputs the transmission data to the transmission frame generation unit 102 in accordance with the ACK signal or the NACK signal output from the separation unit 113.
- the transmission array directivity control unit 105 applies a weight to the transmission signal output from the transmission radio unit 104 in accordance with the instruction from the array directivity switching control unit 201, and transmits the weighted signal via the antenna sharing unit 106. Output to antenna 107, antenna 108 and antenna 109. Further, the transmission array directivity control unit 105 does not change the weight of the transmission signal when the directivity of the array or the beam width of the transmission antenna is not changed.
- the reception directivity control unit 110 estimates the direction of arrival of the received wave from the phase difference and power difference of the signals received by the antenna 107, the antenna 108, and the antenna 109, respectively. Then, it outputs arrival direction information to the array directivity switching control unit 201. Further, reception array directivity control section 110 outputs the reception signal output from antenna sharing section 106 to reception radio section 111.
- the separation unit 113 separates the reception signal output from the demodulation unit 112 into a reception data, a directivity switching signal described later, and an ACK signal or a NACK signal, and outputs the reception data. Then, the ACK signal or the NACK signal is output to the buffer 101, and the directivity switching signal is output to the array directivity switching control unit 201.
- the array directivity switching control unit 201 when instructed to switch the array directivity or beam width of the transmitting antenna according to the directive of the directivity switching signal output from the demultiplexing unit 113, outputs the received array directivity.
- the weight to be transmitted by each antenna is calculated based on the direction-of-arrival information output from the directivity control unit 110, the weight is output to the transmission array directivity control unit 105, and the transmission antenna array directivity is calculated. Outputs an instruction to change the beam width or beam width.
- the directivity switching control unit 205 of the array sends the directivity of the array of the transmitting antenna or Outputs an instruction not to change the beam width.
- Reception quality measurement section 155 measures the quality of the reception signal output from reception radio section 153, and outputs the obtained reception quality information to array directivity switching determination section 251.
- the error detection unit 156 determines whether there is an error in the data of the received frame output from the demodulation unit 154, and if there is an error in the received data, there is an error.
- a NACK signal requesting data retransmission is output to array directivity switching determination section 251. If there is no error in the received data, an ACK signal requesting the next data transmission is output to the array directivity switching determination unit 251, and the received data without error is output. .
- the transmission frame creation unit 157 creates a transmission frame from the transmission data, a directivity switching signal described later, an ACK signal or a NACK signal, and outputs it to the modulation unit 158.
- the array directivity switching determination unit 255 stores the reception quality information output from the reception quality measurement unit 155, and based on the reception quality information when the NACK signal is received from the error detection unit 156. It is determined whether or not to change the directivity or the beam width of the array of the transmitting antenna based on the result of the determination, and from this determination result, an instruction to change or not to change the directivity or the beam width of the array of the transmitting antenna (hereinafter, “ Directivity switching signal '' ) And a NACK signal to the transmission frame generator 157.
- the array directivity switching determination unit 251 determines whether to change the directivity or the beam width of the array of the transmission antenna based on the reception quality information. Judgment is made, and a directivity switching signal and an AC ⁇ signal are output to the transmission frame creation section 157 based on the judgment result.
- the directivity switching signal is generated based on the reception quality information in the array directivity switching determination unit 251, and is transmitted as a transmission frame together with the ACK signal or NACK signal and the transmission data in the transmission frame generation unit 157.
- the transmission frame is modulated by the modulation section 158 and output to the transmission radio section 159, where radio processing is performed by the transmission radio section 159, and the antenna common section 152 and the antenna 1 It is output as a wireless signal through 51.
- the wireless signal transmitted from the wireless communication device 250 is received through the antenna 107, the antenna 108 and the antenna 109, the antenna common use unit 106, the reception array directivity control unit 110, It is output as a reception signal to the reception radio unit 111, is subjected to radio processing in the reception radio unit 111, is output to the demodulation unit 112, is demodulated in the demodulation unit 112, and is demodulated to the separation unit 113. Is output. Also, in the reception array directivity control unit 110, the antenna 107, the antenna 108, and the antenna 109 estimate the direction of arrival of the received wave from the phase difference and power difference of the signals respectively received, and The direction information is output to the array directivity switching control unit 201.
- the reception signal is separated into reception data, a directivity switching signal, and an ACK signal or a NACK signal in the separation unit 113, the reception data is output, and the ACK signal or the NACK signal is output to the buffer 101, and the directivity is output.
- the switching signal is output to array directivity switching control section 201.
- the transmission data to be retransmitted is output from the buffer 101 to the transmission frame generation unit 102, and is configured as a transmission frame in the transmission frame generation unit 102. Is done.
- the directivity switching signal is sent from the array directivity switching control unit 201 to the transmission array directivity control unit 105 based on the directivity switching signal, to instruct the transmission array directivity control unit 105 to change the array directivity or beam width of the transmitting antenna. Is output.
- the radio communication apparatus of the present embodiment it is possible to change the directivity or beam width of the array of the transmitting antenna based on the quality information of the received signal and transmit the signal with the optimal directivity according to the line condition. Therefore, the number of retransmissions can be reduced with a simple configuration of the wireless communication device on the transmission side.
- the reception quality information is used for the line condition.
- the present invention is not limited to this, and any information representing the line condition may be used.
- the radio communication apparatus of the present invention determines the change of the directivity or the beam width of the array of the transmitting antenna every time the ACK signal or the NACK signal is received. It is also possible to determine a change in the directivity or the beam width of the transmission antenna array every time a signal is received.
- the reception quality information at the time of switching is used when determining the change in the directivity or the beam width of the array of the transmission antenna, but the reception quality information for a predetermined number of times is used. Can be stored, and a change in the directivity or beam width of the array of the transmitting antenna can be determined based on the reception quality information.
- the change of the directivity or the beam width of the array of the transmitting antenna is changed in only one step, but the change is not limited to this, and may be changed in a plurality of steps.
- a plurality of thresholds can be provided in the information on the line condition such as the reception quality information, and the directivity or beam width of the array of the transmitting antenna can be changed stepwise every time the threshold is exceeded.
- the ACK signal and the NACK signal are transmitted.
- the present invention is not limited to this, and only the ACK signal may be transmitted.
- the receiving side detects an error and measures the line condition at the time of reception, and based on the line condition, the transmitting side transmits or retransmits the data.
- the transmission direction is determined by determining the directivity or beam width of the array of transmitting antennas at the time of transmission, and transmitting at a suitable directivity or beam width of the array of transmitting antennas during transmission or retransmission, thereby reducing the number of retransmissions and transmitting. 3 ⁇ 4The J rate can be improved.
- the present invention is suitable for use in a wireless communication device, a base station device, or a communication terminal device.
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- Engineering & Computer Science (AREA)
- Computer Networks & Wireless Communication (AREA)
- Signal Processing (AREA)
- Radio Transmission System (AREA)
- Mobile Radio Communication Systems (AREA)
- Variable-Direction Aerials And Aerial Arrays (AREA)
Description
Claims
Priority Applications (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP01945747A EP1206051A1 (en) | 2000-07-03 | 2001-07-02 | Wireless communication device, and wireless communication method |
KR1020027002684A KR20020026606A (ko) | 2000-07-03 | 2001-07-02 | 무선 통신 장치, 기지국 장치, 통신 단말 장치 및 무선통신 방법 |
AU2001267893A AU2001267893A1 (en) | 2000-07-03 | 2001-07-02 | Wireless communication device, and wireless communication method |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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JP2000201233A JP2002026790A (ja) | 2000-07-03 | 2000-07-03 | 無線通信装置及び無線通信方法 |
JP2000-201233 | 2000-07-03 |
Publications (1)
Publication Number | Publication Date |
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WO2002003571A1 true WO2002003571A1 (fr) | 2002-01-10 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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PCT/JP2001/005696 WO2002003571A1 (fr) | 2000-07-03 | 2001-07-02 | Dispositif et procede de communication sans fil |
Country Status (7)
Country | Link |
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US (1) | US20020168946A1 (ja) |
EP (1) | EP1206051A1 (ja) |
JP (1) | JP2002026790A (ja) |
KR (1) | KR20020026606A (ja) |
CN (1) | CN1383631A (ja) |
AU (1) | AU2001267893A1 (ja) |
WO (1) | WO2002003571A1 (ja) |
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- 2001-07-02 WO PCT/JP2001/005696 patent/WO2002003571A1/ja not_active Application Discontinuation
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- 2001-07-02 CN CN01801893A patent/CN1383631A/zh active Pending
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CN1383631A (zh) | 2002-12-04 |
US20020168946A1 (en) | 2002-11-14 |
AU2001267893A1 (en) | 2002-01-14 |
JP2002026790A (ja) | 2002-01-25 |
KR20020026606A (ko) | 2002-04-10 |
EP1206051A1 (en) | 2002-05-15 |
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