A network element one or more network ports, network time circuitry and packet processing circuitry. The network ports are configured to communicate with a communication network. The network time circuitry is configured to track a network time defined in the communication network. In some embodiments the packet processing circuitry is configured to receive a definition of one or more timeslots that are synchronized to the network time, and to send outbound packets to the communication network depending on the timeslots. In some embodiments the packet processing circuitry is configured to process inbound packets, which are received from the communication network, depending on the timeslots.

A very high frequency (VHF) transceiver can include an amplitude and phase shift keying (APSK) modulator configured to modulate signals for transmission across a first VHF channel of a plurality of VHF channels used to communicate between or among aircraft and one or more ground stations. Each of the VHF channels can have a bandwidth of at least 8.33 kilo Hertz (kHz) with a data rate per Hertz (Hz) greater than or equal to 3 bits per second per Hz (bps/Hz). The VHF transceiver can include a power amplifier configured to amplify the modulated signals prior to the transmission. The VHF transceiver can include a linearity controller configured to control linearity of the power amplifier according to at least one of a Cartesian feedback amplifier linearization, pre-distortion amplifier linearization or feedforward amplifier linearization to mitigate nonlinear distortion associated with signals output by the power amplifier.

The disclosure relates to a method (200) performed by a control system (2, 3, 4) that controls the usage of a first carrier, which first carrier is divided into transmission segments and each transmission segment consisting of N transmission time intervals, where N is greater than or equal to 2. The method (200) comprises the control system (2, 3, 4): configuring (202) a first wireless communication device UE1 to transmit data on a physical traffic channel using the first carrier by transmitting the data only during a first subset of the N transmission time intervals in each transmission segment, wherein the first subset of the N transmission time intervals consists of n transmission time intervals and n<N; configuring (204) the first wireless communication device UE1 to transmit control information on a physical control channel using the first carrier by transmitting the control information during only the first subset of transmission time intervals in each transmission segment; and scheduling (206) a downlink transmission for the first wireless communication device UE1 such that a transmission of a feedback signal by the first wireless communication device UE1 in response to the downlink transmission will occur only during one or more of the transmission time intervals included in the first subset of transmission time intervals in each transmission segment.

A method and apparatus include determining for use with a user equipment a measurement configuration, which includes at least information on a frequency location of synchronization signals, a carrier frequency value, and a measurement bandwidth. The measurement configuration is transmitted to the user equipment by higher layer signaling, where the higher layer signaling is above the physical layer. One or more synchronization signals are transmitted on the frequency location, from which a first identity value can be determined. A broadcast channel is transmitted to the user equipment from which a second identity value can be determined, the broadcast channel including a first reference signal based on the first identity value. A second reference signal based on the first identity value, the second identity value, the frequency location of synchronization signals, the carrier frequency value, and the measurement bandwidth is transmitted.

A network element one or more network ports, network time circuitry and packet processing circuitry. The network ports are configured to communicate with a communication network. The network time circuitry is configured to track a network time defined in the communication network. In some embodiments the packet processing circuitry is configured to receive a definition of one or more timeslots that are synchronized to the network time, and to send outbound packets to the communication network depending on the timeslots. In some embodiments the packet processing circuitry is configured to process inbound. packets, which are received from the communication network, depending on the timeslots.

A method and apparatus include receiving a measurement configuration by higher layer signaling, where the higher layer signaling is above the physical layer. The measurement configuration includes at least information of frequency location of synchronization signals, a carrier frequency, and a maximum allowed measurement bandwidth. A measurement reference signal is then received based on the received measurement configuration, and a measurement based on the received measurement reference signal is performed.

A method and apparatus include determining for use with a user equipment a measurement configuration, which includes at least information on a frequency location of synchronization signals, a carrier frequency value, and a measurement bandwidth. The measurement configuration is transmitted to the user equipment by higher layer signaling, where the higher layer signaling is above the physical layer. One or more synchronization signals are transmitted on the frequency location, from which a first identity value can be determined. A broadcast channel is transmitted to the user equipment from which a second identity value can be determined, the broadcast channel including a first reference signal based on the first identity value. A second reference signal based on the first identity value, the second identity value, the frequency location of synchronization signals, the carrier frequency value, and the measurement bandwidth is transmitted.

A method, an apparatus, and a computer program product for wireless communication are provided. The apparatus may receive, for a citizens broadband radio service (CBRS) band, time division duplex (TDD) configuration preferences. The apparatus may select, based at least in part on the TDD configuration preferences, a TDD configuration, from a plurality of possible TDD configurations. The apparatus may transmit selection information identifying the selected TDD configuration.

A method and apparatus include receiving a measurement configuration by higher layer signaling, where the higher layer signaling is above the physical layer. The measurement configuration includes at least information of frequency location of synchronization signals, a carrier frequency, and a maximum allowed measurement bandwidth. A measurement reference signal is then received based on the received measurement configuration, and a measurement based on the received measurement reference signal is performed.

A method and apparatus include receiving a measurement configuration by higher layer signaling, where the higher layer signaling is above the physical layer. The measurement configuration includes at least information of frequency location of synchronization signals, a carrier frequency, and a maximum allowed measurement bandwidth. A measurement reference signal is then received based on the received measurement configuration, and a measurement based on the received measurement reference signal is performed.