Communication method and radio transmitter
First Claim
1. An OFDM transmitter configured to communicate with a plurality of terminals at the same time using OFDM signals using a plurality of frequency channels composed of a plurality of subcarriers having mutually different frequencies, wherein the plurality of terminals includes terminals capable of receiving all of the frequency channels and terminals capable of receiving less than all of the frequency channels, the OFDM transmitter comprising:
- a mapping part configured to allocate transmission power to one or more subcarriers in each of the frequency channels and further configured to allocate zero transmission power to a subcarrier located in a center of all of the frequency channels and to a respective subcarrier located in between each of the frequency channels, wherein the respective subcarrier located in between each of the frequency channels comprises a subcarrier corresponding to a maximum frequency or a minimum frequency of a respective frequency channel; and
a transmitting section configured to transmit the OFDM signals using the plurality of frequency channels, wherein data is transmitted via the OFDM signals without using the subcarrier located in the center of all of the frequency channels and without using the respective subcarrier located in between each of the frequency channels.
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Accused Products
Abstract
Radio transmission is performed even to a communication party whose bandwidth that can be used for transmission and reception is limited without having an influence of an offset of a DC component. A radio transmitter applied to an OFDMA communication system in which a plurality of different terminals performs communication using OFDM signals at the same time that includes a mapping part that allocates transmission power to each subcarrier, and also selects a subcarrier to which minimum power of the transmission power to be allocated is allocated and modulates transmission data in units of communication slots to output the modulated data; and a transmission part for transmitting radio signals including the modulated data using each of the subcarriers.
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Citations
4 Claims
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1. An OFDM transmitter configured to communicate with a plurality of terminals at the same time using OFDM signals using a plurality of frequency channels composed of a plurality of subcarriers having mutually different frequencies, wherein the plurality of terminals includes terminals capable of receiving all of the frequency channels and terminals capable of receiving less than all of the frequency channels, the OFDM transmitter comprising:
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a mapping part configured to allocate transmission power to one or more subcarriers in each of the frequency channels and further configured to allocate zero transmission power to a subcarrier located in a center of all of the frequency channels and to a respective subcarrier located in between each of the frequency channels, wherein the respective subcarrier located in between each of the frequency channels comprises a subcarrier corresponding to a maximum frequency or a minimum frequency of a respective frequency channel; and a transmitting section configured to transmit the OFDM signals using the plurality of frequency channels, wherein data is transmitted via the OFDM signals without using the subcarrier located in the center of all of the frequency channels and without using the respective subcarrier located in between each of the frequency channels. - View Dependent Claims (2)
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3. A method for communicating with a plurality of terminals at the same time using OFDM signals, wherein the plurality of terminals includes terminals capable of receiving all of the frequency channels and terminals capable of receiving less than all of the frequency channels, the method comprising:
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transmitting the OFDM signals using a plurality of frequency channels, each frequency channel having of a plurality of subcarriers having mutually different frequencies; performing data transmission without using the subcarrier located in the center of all of the frequency channels and without using the respective subcarrier located in between each of the frequency channels; and allocating zero transmission power to a subcarrier located in the center of all of the frequency channels and to a respective subcarrier located in between each of the frequency channels, wherein the respective subcarrier located in between each of the frequency channels comprises a subcarrier corresponding to a maximum frequency or a minimum frequency of a respective frequency channel. - View Dependent Claims (4)
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Specification