Device for receiving or emitting/receiving MIMO signals

The invention claimed is: 1. A device for receiving signals in a MIMO system comprising: m signal receiver channels , where m is greater than 1; an antenna system comprising at least one of an n directive antennae n >m, each antenna being configured to receive signals in an angular sector of each antenna, the angular sector of each antennae not overlapping with another antennae and together forming a total angular sector of 360 degrees, or a multi-sector antenna with n angular sectors n >m, the n angular sectors not overlapping with each other and having a distinct access; and switches configured to associate with each signal receiver channel, an antenna from among the n antennae according to a switching schema selected by a controller, wherein the switching schema is selected from a plurality of p switching schemas, where p <n!/m!(n-m)!, according to a criteria representing a quality of reception of the signals by said signal receiver channels, wherein each of the plurality of switching schema select m antennae having their angular sectors comprised in a set of m+1 consecutive angular sectors, with at most two antennae from among the m antennae selected having opposite angular sectors. 2. The device according to claim 1 , wherein a switching matrix comprises at least the n switching schemas each selecting m antennae having consecutive angular sectors. 3. The device according to claim 2 , wherein the switching matrix further comprises the switching schemas each selecting m antennae having their angular sectors comprised in a set of m+2 consecutive angular sectors, the switching schemas selecting antennae having opposite angular sectors being excluded from said switching matrix. 4. The device according to claim 1 , wherein the controller is further configured to replace the switching schema selected by said controller by another predefined switching schema of a switching matrix, when a reception quality criterion for at least one of the signal receiver channels is no longer met. 5. The device according to claim 1 wherein the angular sectors have identical sizes equal to 360 /n degrees. 6. The device according to claim 1 wherein n antennae are formed by a multi-sector antenna with n angular sectors, each sector being able to be linked to a receiver channel via said switch. 7. A device for transmitting and receiving signals in a MIMO system comprising: a reception device, m signal transmission channels, each signal transmission channel being associated with a signal receiver channel, and switches wherein the switches are configured to associate with each transmission channel one antenna from among the n antennae according to a switching schema selected by controller, the switching schema being selected from a plurality of switching schemas of a switching matrix according to a criterion representing a quality of a reception of the signals by said associated signal receiver channels, wherein each of the plurality of switching schema select m antennae having their angular sectors comprised in a set of m+1 consecutive angular sectors, with at most two antennae from among the m antennae selected having opposite angular sectors. 8. A method for receiving signals in a MIMO system, the method comprising: receiving, by each antenna in an antenna system, signals in one angular sector of each antenna, the angular sector of each antennae not overlapping with another antenna and together forming a total angular sector of 360 degrees, the antenna system comprising at least one of an n directive antennae n >m such that m represents a number of signal receiver channels and m is greater than 1 or a multi-sector antenna with n angular sectors n >m in which the n angular sectors do not overlap and have a distinct access; and associating, using switches, with each signal receiver channel, an antenna from among the n antennae according to a switching schema selected by a controller, wherein the switching schema is selected from a plurality of p switching schemas, where p <n!/m!(n-m)!, according to a criteria representing a quality of reception of the signals by said signal receiver channels, wherein each of the plurality of switching schema select m antennae having their angular sectors comprised in a set of m+1 consecutive angular sectors, with at most two antennae from among the m antennae selected having opposite angular sectors. 9. The method according to claim 8 , wherein a switching matrix comprises at least the n switching schemas each selecting m antennae having consecutive angular sectors. 10. The method according to claim 9 , further comprising selecting m antennae, by each switching schema, having their angular sectors comprised in a set of m+2 consecutive angular sectors, the switching schemas selecting antennae having opposite angular sectors being excluded from said switching matrix. 11. The method according to claim 8 , further comprising replacing, using the controller, the switching schema selected by said controller by another predefined switching schema of a switching matrix, when a reception quality criterion for at least one of the signal receiver channels is no longer met. 12. The method according to claim 8 , wherein the angular sectors have identical sizes equal to 360 /n degrees. 13. The method according to claim 8 , further comprising forming, by a multisector antenna, n antennae with n angular sectors, each sector being able to be linked to a receiver channel via said switch. 14. A method for transmitting and receiving signals in a MIMO system, the method comprising: associating, using switches of m signal transmission channels, with each transmission channel one antenna from among n antennae according to a switching schema selected by a controller, the switching schema being selected from a plurality of switching schemas of a switching matrix according to a criterion representing a quality of a reception of the signals by said associated signal receiver channels, each of the m signal transmission channels being associated with a signal receiver channel, wherein each of the plurality of switching schema select m antennae having their angular sectors comprised in a set of m+1 consecutive angular sectors, with at most two antennae from among the m antennae selected having opposite angular sectors.