Antenna configuration switching for full-duplex transmission

The invention claimed is: 1. A method of controlling full-duplex radio transmission, the method comprising: transmitting outgoing radio signals to a further radio device and receiving incoming radio signals from the further radio device, by a radio device, on a same carrier frequency; and switching, by the radio device, at least between a first antenna configuration and a second antenna configuration; estimating, by the radio device, first radio channel characteristics based on the incoming radio signals received in the first antenna configuration and second radio channel characteristics based on the incoming radio signals received in the second antenna configuration; controlling transmission in the first antenna configuration, by the radio device, of the outgoing radio signals based on the second radio channel characteristics and/or controlling reception of the incoming radio signals based on the second radio channel characteristics; and controlling transmission in the second antenna configuration, by the radio device, of the outgoing radio signals based on the first radio channel characteristics and/or controlling reception of the incoming radio signals based on the first radio channel characteristics, wherein in the first antenna configuration the outgoing radio signals are transmitted via at least one first antenna while simultaneously receiving the incoming radio signals via at least one second antenna, and wherein in the second antenna configuration the outgoing radio signals are transmitted via the at least one second antenna while simultaneously receiving the incoming radio signals via the at least one first antenna. 2. The method according to claim 1 , wherein the outgoing radio signals comprise a first reference signal transmitted in the first antenna configuration and a second reference signal transmitted in the second antenna configuration. 3. The method according to claim 1 , wherein the incoming radio signals received in the first antenna configuration comprise a first received reference signal, wherein the radio device estimates the first radio channel characteristics based on the first received reference signal, wherein the incoming radio signals received in the second antenna configuration comprise a second received reference signal, and wherein the radio device estimates the second radio channel characteristics based on the second received reference signal. 4. The method according to claim 1 , wherein said controlling transmission of the outgoing radio signals and/or controlling reception of the incoming radio signals comprises controlling of a multi-antenna transmission configuration. 5. The method according to claim 1 , further comprising: the radio device switching to a third antenna configuration, wherein in the third antenna configuration further outgoing radio signals are transmitted via the at least one first antenna and the at least one second antenna to the further radio device. 6. The method according to claim 1 , further comprising: the radio device switching to a fourth antenna configuration, wherein in the fourth antenna configuration further incoming radio signals are received via the at least one first antenna and the at least one second antenna from the further radio device. 7. The method according to claim 1 , further comprising: the radio device coordinating the switching between the antenna configurations with switching of antenna configurations by the further radio device. 8. The method according to claim 1 , wherein the radio device comprises a wireless communication device. 9. The method according to claim 1 , wherein the further radio device comprises a base station of a wireless communication network. 10. A radio device, the radio device comprising: a transmit branch configured to process outgoing radio signals transmitted on a carrier frequency to a further radio device; a receive branch configured to process incoming radio signals received on the carrier frequency from the further radio device; at least one first antenna and at least one second antenna; a switch coupled between the transmit branch and the receive branch and the at least one first antenna and the at least one second antenna; and an antenna switching controller configured to perform operations comprising: estimating, by the radio device, first radio channel characteristics based on the incoming radio signals received in a first antenna configuration and second radio channel characteristics based on the incoming radio signals received by a second antenna configuration; controlling transmission in the first antenna configuration, by the radio device, of the outgoing radio signals based on the second radio channel characteristics and/or controlling reception of the incoming radio signals based on the second radio channel characteristics; and controlling transmission in the second antenna configuration, by the radio device, of the outgoing radio signals based on the first radio channel characteristics and/or controlling reception of the incoming radio signals based on the first radio channel characteristics, wherein the switch is configured to switch at least between the first antenna configuration and the second antenna configuration, wherein in the first antenna configuration the outgoing radio signals are transmitted via the at least one first antenna while simultaneously receiving the incoming radio signals via the at least one second antenna, and wherein in the second antenna configuration the outgoing radio signals are transmitted via the at least one second antenna while simultaneously receiving the incoming radio signals via the at least one first antenna. 11. The radio device according to claim 10 , wherein the radio device further comprises one or more processors configured to control the switch. 12. The radio device according to claim 11 , wherein the one or more processors are configured to control the radio device to perform operations comprising: transmitting outgoing radio signals to a further radio device and receiving incoming radio signals from the further radio device, by a radio device, on a same carrier frequency; and switching, by the radio device, at least between a first antenna configuration and a second antenna configuration; estimating, by the radio device, first radio channel characteristics based on the incoming radio signals received in the first antenna configuration and second radio channel characteristics based on the incoming radio signals received in the second antenna configuration; controlling transmission in the first antenna configuration, by the radio device, of the outgoing radio signals based on the second radio channel characteristics and/or controlling reception of the incoming radio signals based on the second radio channel characteristics; and controlling transmission in the second antenna configuration, by the radio device, of the outgoing radio signals based on the first radio channel characteristics and/or controlling reception of the incoming radio signals based on the first radio channel characteristics, wherein in the first antenna configuration, the outgoing radio signals are transmitted via at least one first antenna while simultaneously receiving the incoming radio signals via at least one second antenna, and wherein in the second antenna configuration, the outgoing radio signals are transmitted via the at least one second antenna while simultaneously receiving the incoming radio signals via the at least one first antenna. 13. A system, comprising: a first radio device and a second radio device configured to transmit, on a same carrier fre