Abstract: In order to send electromagnetic signals received on one or more first frequency bands, the method applies a transformation to the signals, by performing the following actions: selecting first frequency sub-bands, forming a first set of frequency sub-bands of the first frequency band(s); using organization rules to associate one or more second sets of frequency sub-bands, forming one or more second frequency bands, with each first frequency sub-band of the first set; and using optimization rules to determine frequency translations to transpose the signals received in the first frequency sub-bands into signals sent in the second frequency band(s).
Abstract: In order to send electromagnetic signals received on one or more first frequency bands, the method applies a transformation to the signals, by performing the following actions: selecting first frequency subbands, forming a first set of frequency subbands of the first frequency band(s); using organization rules to associate one or more second sets of frequency subbands, forming one or more second frequency bands, with each first frequency subband of the first set; and using optimization rules to determine frequency translations to transpose the signals received in the first frequency subbands into signals sent in the second frequency band(s).
Abstract: Systems and methods for efficiently transmitting information over a wireless network segment are provided herein. An exemplary method may include separating, via a transmitter, digital fronthaul data into general information and radio signal information, transmitting the general information over the wireless network segment from the transmitter to a receiver on a first communications channel, and transmitting the radio signal information over the wireless network segment from the transmitter to the receiver on a second communications channel.
Abstract: A method of synchronizing two electronic devices connected by a wireless link with at least one path including a transmission channel and a reception channel. The two devices are included in a network, such as a mobile telephone network. Synchronization information is transmitted directly from one electronic device to the other, as a clock pilot signal, via the channels. After recovery, the clock pilot signal is used for synchronization of a reference frequency of the receiving electronic device.
Abstract: Wide area transport networks for mobile Radio Access Networks, and methods of use are provided herein. An exemplary wide area transport network may include a plurality of network segments that include at least one wireline network and at least one wireless network communicatively coupled with one another. Each of the plurality of network segments may be configured to transmit at least one of a plurality of signals communicated between a baseband module and a wireless transceiver.
Abstract: Wide area transport networks for mobile Radio Access Networks, and methods of use are provided herein. An exemplary wide area transport network may include a plurality of network segments that include at least one wireline network and at least one wireless network communicatively coupled with one another. Each of the plurality of network segments may be configured to transmit at least one of a plurality of signals communicated between a baseband module and a wireless transceiver.
Abstract: Systems and methods for efficiently transmitting information over a wireless network segment are provided herein. An exemplary method may include separating, via a transmitter, digital fronthaul data into general information and radio signal information, transmitting the general information over the wireless network segment from the transmitter to a receiver on a first communications channel, and transmitting the radio signal information over the wireless network segment from the transmitter to the receiver on a second communications channel.
Abstract: A method of synchronizing two electronic devices connected by a wireless link with at least one path including a transmission channel and a reception channel. The two devices are included in a network, such as a mobile telephone network. Synchronization information is transmitted directly from one electronic device to the other, as a clock pilot signal, via the channels. After recovery, the clock pilot signal is used for synchronization of a reference frequency of the receiving electronic device.
Abstract: In order to send electromagnetic signals received on one or more first frequency bands, the method applies a transformation to the signals, by performing the following actions: selecting first frequency subbands, forming a first set of frequency subbands of the first frequency band(s); using organization rules to associate one or more second sets of frequency subbands, forming one or more second frequency bands, with each first frequency subband of the first set; and using optimization rules to determine frequency translations to transpose the signals received in the first frequency subbands into signals sent in the second frequency band(s).
Abstract: The invention relates to a wireless system for transmitting data between a base station and a relay antenna of a mobile telephony network. A link comprises, for the separating of the channels, two filters having a lower isolation than a total predetermined isolation and the antennas are dual-polarization antennas, each polarization being allocated to one of the two channels. The isolation provided by the filters and the antenna are added together to obtain the total predetermined isolation.
Abstract: The invention relates to a local communication network between a mobile telephone and a fixed-line telephone through a relay antenna and a connection for data transmission, connecting the antenna to a fixed radio-frequency station. The transmission connection is a wireless transmission connection at a radio frequency.
Abstract: The invention relates to a wireless system for transmitting data between a base station and a relay antenna of a mobile telephony network. A link comprises, for the separating of the channels, two filters having a lower isolation than a total predetermined isolation and the antennas are dual-polarization antennas, each polarization being allocated to one of the two channels. The isolation provided by the filters and the antenna are added together to obtain the total predetermined isolation.
Abstract: A method of synchronizing two electronic devices connected by a wireless link with at least one path including a transmission channel and a reception channel. The two devices are included in a network, such as a mobile telephone network. Synchronization information is transmitted directly from one electronic device to the other, as a clock pilot signal, via the channels. After recovery, the clock pilot signal is used for synchronization of a reference frequency of the receiving electronic device.