Method and Apparatus for Communication Using a DECT Communication Protocol

1 . A method of controlling channel selection in a wireless communications system ( 400 ) using a DECT frequency division communications protocol, wherein predefined channels are established using multiple carrier signals at respective carrier frequencies (F 1 ,F 2 , . . . F 8 ) comprising: transmitting ( 205 ) a first signal (S 1 ) on one or more of the channels using automatic channel selection; configuring ( 203 ) a power level of carrier signals in a first group of channels ( 308 ) for a first power level ( 301 ) and configuring a power level of carrier signals in a second group of channels ( 309 ) for a second power level ( 302 ); wherein the second power ( 302 ) level is deliberately higher than the first power level ( 301 ); wherein the first signal (S 1 ) is transmitted in accordance with a first transmission scheme (TS-A), wherein channel selection is restricted to the channels in the first group of channels ( 308 ), and/or in accordance with the second transmission scheme (TS-B), wherein channel selection is restricted to the channels in the second group of channels ( 309 ). 2 . A method according to claim 1 , comprising: restricting the first signal or a group of signals for transmission in accordance with the first transmission scheme. 3 . A method according to claim 1 , comprising: receiving settings that assign signals, devices or users to: a first group, permitted to use exclusively the first transmission scheme, or a second group, permitted to use exclusively the second transmission scheme, or a third group, permitted to use a combination of the first and second transmission scheme; wherein channel selection, during transmission of signals respective devices or users, is performed in accordance with the received settings. 4 . A method according to claim 1 , comprising: branching the first signal (S 1 ) into a first branch signal (SB 1 ) and into a second branch signal (SB 2 ); wherein the first branch signal and the second branch signal are transmitted in parallel in accordance with the first transmission scheme and in accordance with the second transmission scheme, respectively. 5 . A method according to claim 1 , comprising: shifting a transmission of the first signal from being transmitted in accordance with the first transmission scheme to be transmitted in accordance with the second transmission scheme, or vice versa. 6 . A method according to claim 1 , comprising: measuring values of a signal quality indicator for each of the multiple channels; in respect of the first signal being transmitted on a current channel in accordance with the first transmission scheme and in connection with deciding on selecting another channel in the first transmission scheme: shifting transmission of the signal from the first transmission scheme to the second transmission scheme in case measured values of a signal quality indicator indicates that other channels in the first transmission scheme yields a signal quality below a predefined threshold. 7 . A method according to claim 1 , comprising: measuring values of a signal quality indicator for each of the multiple channels; in respect of the first signal, determining a trend in the measured values of the signal quality indicator; and shifting transmission of the first signal from the first transmission scheme to the second transmission scheme, in case the trend is going towards or below a poorer signal quality level than measured for any other channel among the channels under the first transmission scheme. 8 . A method according to claim 1 , comprising: shifting the transmission of the first signal from the first transmission scheme to the second transmission scheme, or vice versa; wherein shifting the transmission comprises starting transmission on the second transmission scheme and stopping transmission on the first transmission scheme, or vice versa. 9 . A method according to claim 1 , comprising: shifting transmission from the first transmission scheme to the second transmission scheme or vice versa; and wherein shifting the transmission comprises starting transmission on the second transmission scheme. 10 . The communications system of claim 1 wherein the system includes a base station and a wireless headset. 11 . An apparatus configured communicate in accordance with a DECT communications protocol and to control channel selection, wherein the apparatus is configured to transmit respective carrier signals at respective carrier frequencies (F 1 ,F 2 , . . . F 8 ) and establish predefined channels; comprising: a transceiver configured to transmit a first signal (S 1 ) on one or more of the predefined channels using automatic channel selection; wherein the transceiver is configured to transmit carrier signals in a first group of channels ( 308 ) at a first power level ( 301 ) and to transmit carrier signals in a second group of channels ( 309 ) at a second power level ( 302 ); wherein the second power level is deliberately higher than the first power level; wherein the transceiver is configured to transmit the first signal in accordance with a first transmission scheme, wherein channel selection is restricted to the channels in the first group ( 308 ), and/or to transmit the first signal in accordance with the second transmission scheme, wherein channel selection is restricted to the channels in the second group ( 309 ) of channels. 12 . A method of controlling channel selection in a communications system ( 400 ) using a frequency division communications protocol, wherein predefined channels are established using multiple carrier signals at respective carrier frequencies (F 1 ,F 2 , . . . F 8 ) comprising: transmitting ( 205 ) a first signal (S 1 ) on one or more of the channels using automatic channel selection; configuring ( 203 ) a power level of carrier signals in a first group of channels ( 308 ) for a first power level ( 301 ) and configuring a power level of carrier signals in a second group of channels ( 309 ) for a second power level ( 302 ); wherein the second power ( 302 ) level is deliberately higher than the first power level ( 301 ); wherein the first signal (S 1 ) is transmitted in accordance with a first transmission scheme (TS-A), wherein channel selection is restricted to the channels in the first group of channels ( 308 ), and/or in accordance with the second transmission scheme (TS-B), wherein channel selection is restricted to the channels in the second group of channels ( 309 ); branching the first signal (S 1 ) into a first branch signal (SB 1 ) and into a second branch signal (SB 2 ); wherein the first branch signal and the second branch signal are transmitted in parallel in accordance with the first transmission scheme and in accordance with the second transmission scheme, respectively. 13 . A method according to claim 12 , using a DECT communications protocol. 14 . A method according to claim 12 , wherein the first group of channels is transmitted in first time slots and wherein the second group of channels is transmitted in second time slots; wherein the first time slots and the second time slots are mutually exclusive. 15 . A headset and base station system configured communicate in accordance with a frequency division communications protocol and to control channel selection, wherein the system is configured to transmit respective carrier signals at respective carrier frequencies (F 1 ,F 2 , . . . F 8 ) and establish predefined channels; comprising: a transceiver configured to transmit a first signal (S 1 ) on one or more of the predefined channels using automatic channel selection; wh