Opportunistic signal transmission for inter-rat co-existence

What is claimed is: 1 . An evolved node B (eNB), comprising: a radio frequency (RF) transceiver; and logic, at least a portion of which is in hardware, the logic to identify a candidate window for opportunistic transmission of one or more reference signals over a carrier, determine whether the carrier is available during the candidate window, and in response to a determination that the carrier is available during the candidate window, cause the RF transceiver to transmit the one or more reference signals over the carrier during the candidate window. 2 . The eNB of claim 1 , the carrier to comprise an unlicensed carrier. 3 . The eNB of claim 1 , the candidate window to correspond to a discovery measurement timing configuration (DMTC) occasion. 4 . The eNB of claim 1 , the candidate window to correspond to a discovery signal (DRS) occasion. 5 . The eNB of claim 1 , the candidate window to correspond to both a discovery measurement timing configuration (DMTC) and a discovery signal (DRS) occasion. 6 . The eNB of claim 1 , the logic to identify the candidate window based on a candidate window periodicity. 7 . The eNB of claim 1 , the logic to identify the candidate window based on a candidate window duration. 8 . The eNB of claim 1 , the one or more reference signals to comprise a discovery signal (DRS). 9 . The eNB of claim 8 , the candidate window to comprise one or more subframes, the DRS transmitted within any of the one or more subframes. 10 . The eNB of claim 8 , the candidate window to comprise one or more subframes, the logic to cause the RF transceiver to not transmit the DRS during a predetermined subframe within the candidate window in response to a determination that the carrier is unavailable during the predetermined subframe. 11 . The eNB of claim 1 , the logic to direct the RF transceiver to transmit the one or more reference signals within the candidate window after a delay if the carrier is unavailable. 12 . The eNB of claim 1 , the logic to direct the RF transceiver to transmit the one or more reference signals based on a co-existence communications protocol. 13 . The eNB of claim 12 , the co-existence communications protocol to comprise a listen before talk (LBT) protocol. 14 . The eNB of claim 1 , the logic to direct the RF transceiver to transmit information regarding identification of the candidate window prior to transmitting the one or more reference signals. 15 . At least one non-transitory computer-readable storage medium comprising a set of wireless communication instructions that, in response to being executed at an evolved node B (eNB) cause the eNB to: determine a search window for transmission of one or more reference signals; generate the one or more reference signals; determine whether a frequency band is free during the search window; and transmit the one or more reference signals adaptively within the search window in the frequency band in response to a determination that the frequency band is free. 16 . The at least one non-transitory computer-readable storage medium of claim 15 , comprising wireless communication instructions that, in response to being executed at the eNB, cause the eNB to transmit the one or more reference signals in an unlicensed frequency band. 17 . The at least one non-transitory computer-readable storage medium of claim 15 , comprising wireless communication instructions that, in response to being executed at the eNB, cause the eNB to determine the search window to correspond to at least one of a discovery measurement timing configuration (DMTC) occasion and a discovery signal (DRS) occasion. 18 . The at least one non-transitory computer-readable storage medium of claim 15 , comprising wireless communication instructions that, in response to being executed at the eNB, cause the eNB to determine the search window to comprise at least one of a search window periodicity and a search window duration. 19 . The at least one non-transitory computer-readable storage medium of claim 15 , comprising wireless communication instructions that, in response to being executed at the eNB, cause the eNB to generate a discovery signal (DRS). 20 . The at least one non-transitory computer-readable storage medium of claim 15 , comprising wireless communication instructions that, in response to being executed at the eNB, cause the eNB to transmit the one or more reference signals based on a listen before talk (LBT) protocol. 21 . User equipment (UE), comprising: logic, at least a portion of which is in hardware, the logic to determine a window for receiving one or more reference signals and to determine a serving cell of the UE is configured to perform opportunistic transmission of the one or more reference signals within the window; and a radio frequency (RF) transceiver to monitor a carrier for the one or more reference signals during the window. 22 . The UE of claim 21 , the carrier to comprise an unlicensed carrier. 23 . The UE of claim 21 , the logic to perform a detection operation on transmissions received on the carrier within the window to recover the one or more reference signals. 24 . The UE of claim 23 , the logic to recover the one or more reference signals by comparing the transmissions received to one or more known fixed patterns representative of the one or more reference signals. 25 . The UE of claim 21 , the logic to determine a configuration of the window prior to the RF transceiver receiving the one or more reference signals. 26 . The UE of claim 25 , the logic to determine the configuration of the window based on information received by the RF transceiver. 27 . The UE of claim 21 , the window to correspond to at least one of a discovery measurement timing configuration (DMTC) occasion and a discovery signal (DRS) occasion. 28 . The UE of claim 21 , the window to comprise at least one of a window periodicity and a window duration.