A microwave communication system may include subscriber stations in communication with a base station. The stations may include time duplex circuitry normally found in wireless local area networks (WLANs). Signals normally routed through antennas associated with such circuitry instead are routed through circuitry to perform frequency conversion to and from microwave communications frequencies, for communications over microwave links between the subscriber stations and the base station. In some embodiments the wireless circuitry is configured for multiple input multiple output (MIMO) operation with one antenna port dedicated for transmission of data and one antenna port dedicated to reception of data.

A microwave communication system may include subscriber stations in communication with a base station. The stations may include time duplex circuitry normally found in wireless local area networks (WLANs). Signals normally routed through antennas associated with such circuitry instead are routed through circuitry to perform frequency conversion to and from microwave communications frequencies, for communications over microwave links between the subscriber stations and the base station. In some embodiments the wireless circuitry is configured for multiple input multiple output (MIMO) operation with one antenna port dedicated for transmission of data and one antenna port dedicated to reception of data.

A wireless device operates in a first wireless network using a first wireless protocol to receive a set of provisioning parameters for joining a second wireless network that uses a second wireless protocol. The first wireless network may be based on a shared wireless broadcast medium. The wireless device then joins the second wireless network using the set of provisioning parameters. In an embodiment the first wireless protocol is according to IEEE 802.11 specifications, while the second wireless protocol is according to IEEE 802.1.5.4 specifications.

A wireless device operates in a first wireless network using a first wireless protocol to receive a set of provisioning parameters for joining a second wireless network that uses a second wireless protocol. The first wireless network may be based on a shared wireless broadcast medium. The wireless device then joins the second wireless network using the set of provisioning parameters. In an embodiment the first wireless protocol is according to IEEE 802.11 specifications, while the second wireless protocol is according to IEEE 802.1.5.4 specifications.

A telecommunications system communicating data to/from one or more terminals, including one or more transmitters to transmit first and second carriers over respective first and second frequency bandwidths. During a first time period the transmitters can transmit data receivable by first and second classes of terminal on the first and second carriers. During a second different time period, the transmitters can transmit data to the second class of terminal on the first and second carriers in combination. A data transmission format on the first carrier in the first time period is incompatible with a user data transmission format on the second carrier during the first time period. The transmitters can transmit control data on the first carrier in the first time period which is receivable by the second class of terminal to enable the second class of terminal to maintain synchronisation with the first carrier during the first time period.

In one aspect, a user equipment is disclosed including a control unit configured to precode an uplink reference signal based on a downlink reference signal, and a transmission unit configured to transmit the precoded uplink reference signal. In another aspect, a transmission method is disclosed including precoding an uplink reference signal based on a downlink reference signal, and transmitting the precoded uplink reference signal.

In one aspect, a user equipment is disclosed including a control unit configured to precode an uplink reference signal based on a downlink reference signal, and a transmission unit configured to transmit the precoded uplink reference signal. In another aspect, a transmission method is disclosed including precoding an uplink reference signal based on a downlink reference signal, and transmitting the precoded uplink reference signal.

An inter-network communication controller may include processing circuitry. The processing circuitry may be configured to receive location information associated with an in-flight aircraft being tracked and provided with air-to-ground (ATG) wireless communication services by a first ATG network. The first ATG network may employ beamforming directed to the aircraft to provide the communication services. The processing circuitry may also be configured to provide the location information to a second ATG network to enable the second ATG network to utilize the location information for employing beamforming to establish wireless communication with the aircraft. The first ATG network and the second ATG network may each operate over different ranges of radio frequency (RF) spectrum.

An inter-network communication controller may include processing circuitry. The processing circuitry may be configured to receive location information associated with an in-flight aircraft being tracked and provided with air-to-ground (ATG) wireless communication services by a first ATG network. The first ATG network may employ beamforming directed to the aircraft to provide the communication services. The processing circuitry may also be configured to provide the location information to a second ATG network to enable the second ATG network to utilize the location information for employing beamforming to establish wireless communication with the aircraft. The first ATG network and the second ATG network may each operate over different ranges of radio frequency (RF) spectrum.

A method and an apparatus for determining a transmission mode of a terminal device are provided. The method includes: determining a first power configuration value and a second power configuration value of the terminal device; determining that a sum of the first power configuration value and the second power configuration value is greater than a first threshold; and determining whether the terminal device uses a first transmission mode or a second transmission mode.