System detection in a high frequency band radio access technology architecture

What is claimed is: 1 . User equipment (“UE”) apparatus, comprising: a radio component to connect to a wireless telecommunications network; a memory device storing a set of processor-executable instructions; and processing circuitry to execute the set of processor-executable instructions, wherein executing the set of processor-executable instructions causes the UE to: receive assistance information that includes at least one of: a carrier frequency and one or more cell identifiers associated with the wireless telecommunications network, or a polling channel configuration; generate, based on the assistance information, a polling signal; output the generated polling signal via the radio component; receive a synchronization signal in response to the polling signal, the synchronization signal being received via the radio component and from one or more cells of the wireless telecommunications network; and detect a particular cell, of the one or more cells of the wireless telecommunications network, using the received synchronization signal. 2 . The UE of claim 1 , wherein the assistance information includes the carrier frequency associated with the wireless telecommunications network, wherein outputting the polling signal includes outputting the polling signal based on the carrier frequency. 3 . The UE of claim 1 , wherein the assistance information includes the polling channel configuration, wherein outputting the polling signal includes outputting the polling signal according to the polling channel configuration. 4 . The UE of claim 1 , wherein the assistance information further includes an indication of a time-frequency resource allocation for the synchronization signal. 5 . The UE of claim 1 , wherein executing the set of processor-executable instructions causes the UE to: determine, based on a radio access technology via which the assistance information was received, one or more parameters associated with the polling signal. 6 . The UE of claim 5 , wherein the one or more parameters, determined based on the radio access technology via which the assistance information was received, include at least one of: a guard time duration associated with the polling signal, or a cyclic prefix duration associated with the polling signal. 7 . The UE of claim 1 , wherein the assistance information includes spatial information, wherein outputting the polling signal includes beamforming the polling signal based on the spatial information. 8 . The UE of claim 1 , wherein a transmit timing of the polling signal is determined by applying a timing advance based on a timing of another wireless communication system, the timing advance being determined based on a value provided by the other wireless communication system. 9 . The UE of claim 1 , wherein a set of transmit beamforming weights, associated with the received synchronization signal, are based on a set of receive beamforming weights associated with the polling signal. 10 . The UE of claim 1 , wherein the polling channel configuration comprises at least one of: a selected polling channel format, a time-frequency resource allocation, an initial transmit power, or parameters for transmit power control, the parameters for transmit power control comprising at least one of: an initial transmit power, an amount of power ramping, parameters related to set a configured maximum output power, or a required number of transmissions before transmitting with the maximum configured output power. 11 . The UE of claim 1 , wherein executing the processor-executable instructions further causes the UE to: sequentially transmit multiple polling sequences using a plurality of different antenna patterns, wherein a first polling sequence is separated from a second polling sequence by a guard time. 12 . A cell device of a wireless telecommunications network, the cell device comprising: a radio component to communicate with a user equipment (“UE”); a memory device storing a set of processor-executable instructions; and processing circuitry to execute the set of processor-executable instructions, wherein executing the set of processor-executable instructions causes the cell device to: output, to the UE, assistance information that includes at least one of: a carrier frequency associated with the wireless telecommunications network, a polling channel configuration, or a polling response channel configuration; receive, from the UE, a polling signal that was generated by the UE based on the assistance information; generate a synchronization signal for the UE, the generating including: determining one or more beamforming weights based on the received polling signal; and output the generated synchronization signal via a polling response channel, to the UE, in response to the polling signal, the polling response channel corresponding to the polling response channel configuration. 13 . The cell device of claim 12 , wherein the cell device operates at a higher frequency band than a frequency band at which a Long-Term Evolution (“LTE”) base station network operates, wherein the cell device is synchronized with one or more LTE base stations. 14 . The cell device of claim 12 , wherein assistance information includes the carrier frequency associated with the wireless telecommunications network, wherein the polling signal is received at the carrier frequency associated with the wireless telecommunications network. 15 . The cell device of claim 12 , wherein executing the processor-executable instructions further causes the cell device to: determine one or more transmission points from which to output the synchronization signal via the polling response channel, the determining being based on at least one of: a signal strength of the received polling signal, a signal power at which the received polling signal was transmitted by the UE, a receive timing offset of the received polling signal, or a load condition of the wireless telecommunications network. 16 . The cell device of claim 12 , wherein the assistance information further includes a cell identifier of the cell device. 17 . The cell device of claim 12 , wherein the one or more beamforming weights are determined based on at least one of: a beamforming weight associated with the received polling signal, or a set of beamforming weights. 18 . A method, comprising: receiving, by a wireless telecommunications network, a polling signal from a user equipment (“UE”); and outputting, from a plurality of transmission points of the wireless telecommunications network, a plurality of synchronization signals to a plurality of UEs, wherein a first synchronization signal for a first UE, from a first transmission point, is associated with a first set of beamforming weights, wherein a second synchronization signal for the first UE, from a second transmission point, is associated with a second set of beamforming weights that is different from the first set of beamforming weights, wherein the first and second synchronization signals for the first UE are transmitted on a same time-frequency resource, wherein outputting the plurality of synchronization signals includes: multiplexing the plurality of synchronization signals associated with different analog beamforming weights on a frequency domain, the synchronization signals for the first UE, associated with a first set of analog beamforming weights, being outputted from a particular transmission point on a first frequency sub-domain, and the synchroniz