Time-advanced random access channel transmission

What is claimed is: 1. A method, comprising: receiving, by a wireless electronic device, a broadcast signal from a first base station, the broadcast signal including a portion of a first Global Positioning System (GPS) time, the first GPS time determined by the first base station and explicitly identifying when the first base station sends the broadcast signal, wherein the portion of the first GPS time includes a predetermined set of digits of the first GPS time; determining, by the wireless electronic device, a second GPS time identifying when the wireless electronic device receives the broadcast signal; identifying, by the wireless electronic device, a portion of the second GPS time, wherein the portion of the second GPS time includes a predetermined set of digits of the second GPS time, and the portion of the second GPS time has a same number of digits as the portion of the first GPS time; estimating, by the wireless electronic device, a signal propagation time between the base station and the wireless electronic device based on the portion of the first GPS time information included in the broadcast signal and based on the portion of the second GPS time; determining, by the wireless electronic device, a timing advance for uplink signal synchronization at the first base station based on the signal propagation time; determining, by the wireless electronic device, a preamble start time based, at least in part, on a time that a downlink signal transmitted by the first base station is received by the wireless electronic device and the timing advance; and transmitting, by the wireless electronic device, at the preamble start time, a random access preamble to the first base station. 2. The method of claim 1 , wherein the broadcast signal is associated with a transmission time aligned with a predetermined GPS time. 3. The method of claim 1 , wherein the preamble start time is further based on a safety margin value. 4. The method of claim 1 , wherein transmitting the random access preamble initiates an uplink connection between the wireless electronic device and the first base station. 5. The method of claim 1 , further comprising selecting a random access preamble format from a plurality of random access preamble formats. 6. The method of claim 5 , further comprising selecting the random access preamble from a set of random access preambles associated with the selected random access preamble format. 7. The method of claim 5 , wherein selecting the random access preamble format from the plurality of random access preamble formats received from the first base station is based, at least in part, on comparing, by the wireless electronic device, at least one of a signal propagation time from the first base station to the wireless electronic device to a first threshold and a received signal strength from the first base station to a second threshold. 8. The method of claim 1 , wherein determining the timing advance comprises receiving a timing advance signal from a second base station. 9. An apparatus for managing downlink interference, the apparatus operating in a cell associated with a corresponding serving first base station and comprising: an antenna; a memory; and at least one hardware processor, the hardware processor operable to execute instructions to: receive a broadcast signal from the first base station, the broadcast signal including a portion of a first Global Positioning System (GPS) time, the first GPS time determined by the first base station and explicitly identifying when the first base station sends the broadcast signal, wherein the portion of the first GPS time includes a predetermined set of digits of the first GPS time; determine a second GPS time identifying when the wireless electronic device receives the broadcast signal; identify a portion of the second GPS time, wherein the portion of the second GPS time includes a predetermined set of digits of the second GPS time, and the portion of the second GPS time has a same number of digits as the portion of the first GPS time; estimate a signal propagation time between the base station and the wireless electronic device based on the portion of the first GPS time information included in the broadcast signal and based on the portion of the second GPS time; determine a timing advance for uplink signal synchronization at the first base station based on the signal propagation time; determine a preamble start time based, at least in part, on a time that a downlink signal transmitted by the first base station is received by the wireless electronic device and the timing advance; and transmit, at the preamble start time, a random access preamble to the first base station. 10. The apparatus of claim 9 , wherein the broadcast signal is associated with a transmission time aligned with a predetermined GPS time. 11. The apparatus of claim 9 , wherein the preamble start time is further based on a safety margin value. 12. The apparatus of claim 9 , wherein transmitting the random access preamble initiates an uplink connection between the wireless electronic device and the first base station. 13. The apparatus of claim 9 , the processor further operable to execute instructions to select a random access preamble format from a plurality of random access preamble formats. 14. The apparatus of claim 13 , the processor further operable to execute instructions to select the random access preamble from a set of random access preambles associated with the selected random access preamble format. 15. The apparatus of claim 13 , wherein selecting the random access preamble format from the plurality of random access preamble formats received from the first base station is based, at least in part, on comparing at least one of a signal propagation time from the first base station to the wireless electronic device to a first threshold and a received signal strength from the first base station to a second threshold. 16. The apparatus of claim 9 , wherein the processor operable to execute instructions to determine the timing advance comprises the processor operable to execute instructions to receive a timing advance signal from a second base station. 17. A system comprising: a first base station in communication with a wireless electronic device, the first base station operable to: broadcast a first signal including at least a first random access preamble format, a first root sequence, and a first cyclic shift that to be used by the wireless electronic device to generate and transmit a first random access preamble with a first timing advance, the first signal also including a portion of a first Global Positioning System (GPS) time, the first GPS time determined by the first base station and explicitly identifying when the first signal sent out, wherein the portion of the first GPS time includes a predetermined set of digits of the first GPS time, and the first timing advance is relative to a downlink signal received at the wireless electronic device to cause signals from wireless electronic devices to arrive synchronized at the first base station; and receive the first random access preamble from the wireless electronic device; the wireless electronic device operable to: receive the first signal from the first base station; determine a second GPS time identifying when the wireless electronic device receives the first signal; identify a portion of the second GPS time, wherein the portion of the second GPS time includes a predetermined set of digits of the second GPS time, and the portion of the second GPS time has a same number of digi