SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2371984793> ?p ?o ?g. }

Showing items 1 to 100 of ±241 with 100 items per page.

W2371984793 abstract "This thesis addresses the problem of channel and propagation delay estimation in wireless communication systems. Channel estimation and equalization compensate for channel distortions. Consequently, transmitted data may be reliably recovered. A feasible communication link, in both single user and multi-user communications, requires synchronization between the transmitter and the receiver. Traditional channel estimation and synchronization methods use training data, therefore decreasing the effective data rates. More efficient methods which use smaller amounts of training data are of great interest. In particular blind equalization methods, as well as receiver based synchronization methods enable higher effective data rates. In Global System for Mobile Communications (GSM) more than 22% of the transmitted signal is used for channel estimation and synchronization purposes. If blind equalization methods could be applied in GSM, this part of the signal could be used for transmitting information bits. Blind channel identifiability problems in GSM are investigated in this thesis. The performance of several blind equalization methods is also evaluated, for both the Gaussian Minimum Shift Keying (GMSK) modulation and for the 8-Phase Shift Keying (8-PSK) modulation proposed for the future evolution of the GSM, Enhance Data Rates for Global Evolution (EDGE). Blind equalization methods are feasible for GSM in low mobility scenarios. The uplink (mobile to base station (BS) link) in direct-sequence code division multiple access (DS-CDMA) wireless networks is asynchronous. A DS-CDMA receiver has to simultaneously estimate channel impulse responses (CIR) and propagation delays for the active users. Commercial CDMA based systems use long spreading codes, with the period much longer than the symbol period. In this thesis, a novel uplink multi-user adaptive receiver is developed for long-code DS-CDMA. It is also capable of tracking time variations of the channels. Multiple antennas are considered at the receiver end, taking advantage of the signal to noise ratio (SNR) gain and the antenna diversity gain. A specific system model is developed, characterized by a channel matrix which also includes the effect of the propagation delays. Estimating the channel matrix leads to the implicit estimation of the propagation delays. Algorithms for the explicit estimation of the propagation delays are also derived. The proposed receiver structures are capable of estimating and tracking the impulse responses of the channels and synchronizing the active users by using low complexity adaptive techniques. This thesis also addresses the problem of channel estimation and time synchronization in Orthogonal Frequency Division Multiplex (OFDM) systems. OFDM is robust with regard to frequency selective channels but is very sensitive to time and frequency synchronization errors. A novel low-complexity iterative method is developed for channel and time-offset estimation in OFDM by using a system model specific to fixed wireless links, e.g. wireless local area networks (WLAN) IEEE 802.11 standard." @default.
W2371984793 created "2016-06-24" @default.
W2371984793 creator A5037126148 @default.
W2371984793 date "2003-12-05" @default.
W2371984793 modified "2023-09-25" @default.
W2371984793 title "Channel and delay estimation algorithms for wireless communication systems" @default.
W2371984793 cites W137407478 @default.
W2371984793 cites W1492221128 @default.
W2371984793 cites W1495311907 @default.
W2371984793 cites W1504113515 @default.
W2371984793 cites W1514159701 @default.
W2371984793 cites W1515666799 @default.
W2371984793 cites W1520049460 @default.
W2371984793 cites W1525552993 @default.
W2371984793 cites W1528990780 @default.
W2371984793 cites W1545221733 @default.
W2371984793 cites W1548802052 @default.
W2371984793 cites W1551517259 @default.
W2371984793 cites W1554869655 @default.
W2371984793 cites W1555428109 @default.
W2371984793 cites W1571382489 @default.
W2371984793 cites W1573732463 @default.
W2371984793 cites W1595104169 @default.
W2371984793 cites W1595181925 @default.
W2371984793 cites W1596255871 @default.
W2371984793 cites W1597052444 @default.
W2371984793 cites W1607129907 @default.
W2371984793 cites W1607652699 @default.
W2371984793 cites W1753650664 @default.
W2371984793 cites W1791928322 @default.
W2371984793 cites W1834138681 @default.
W2371984793 cites W1883924856 @default.
W2371984793 cites W1897201292 @default.
W2371984793 cites W1901326390 @default.
W2371984793 cites W1969278947 @default.
W2371984793 cites W1972095580 @default.
W2371984793 cites W1973407121 @default.
W2371984793 cites W1977743341 @default.
W2371984793 cites W1979827061 @default.
W2371984793 cites W1980201978 @default.
W2371984793 cites W1982068288 @default.
W2371984793 cites W1985882013 @default.
W2371984793 cites W2000241254 @default.
W2371984793 cites W2004615135 @default.
W2371984793 cites W2014325677 @default.
W2371984793 cites W2022958807 @default.
W2371984793 cites W2025372136 @default.
W2371984793 cites W2031005205 @default.
W2371984793 cites W2032572592 @default.
W2371984793 cites W2039955003 @default.
W2371984793 cites W2041222266 @default.
W2371984793 cites W2043864462 @default.
W2371984793 cites W2047839902 @default.
W2371984793 cites W2049532134 @default.
W2371984793 cites W2051830505 @default.
W2371984793 cites W2053955633 @default.
W2371984793 cites W2059786462 @default.
W2371984793 cites W2061998039 @default.
W2371984793 cites W2064093477 @default.
W2371984793 cites W2076575826 @default.
W2371984793 cites W2077246533 @default.
W2371984793 cites W2079323093 @default.
W2371984793 cites W2079332753 @default.
W2371984793 cites W2081670012 @default.
W2371984793 cites W2090589668 @default.
W2371984793 cites W2095975429 @default.
W2371984793 cites W2096106992 @default.
W2371984793 cites W2096269904 @default.
W2371984793 cites W2096292849 @default.
W2371984793 cites W2096751147 @default.
W2371984793 cites W2097807275 @default.
W2371984793 cites W2097987904 @default.
W2371984793 cites W2098111471 @default.
W2371984793 cites W2098301339 @default.
W2371984793 cites W2098611950 @default.
W2371984793 cites W2098630413 @default.
W2371984793 cites W2101557746 @default.
W2371984793 cites W2101950184 @default.
W2371984793 cites W2102678064 @default.
W2371984793 cites W2104033031 @default.
W2371984793 cites W2105067039 @default.
W2371984793 cites W2106051735 @default.
W2371984793 cites W2107080958 @default.
W2371984793 cites W2107757493 @default.
W2371984793 cites W2108656301 @default.
W2371984793 cites W2109369873 @default.
W2371984793 cites W2109419282 @default.
W2371984793 cites W2109858996 @default.
W2371984793 cites W2110473583 @default.
W2371984793 cites W2110527043 @default.
W2371984793 cites W2110562101 @default.
W2371984793 cites W2110774823 @default.
W2371984793 cites W2110968033 @default.
W2371984793 cites W2111040297 @default.
W2371984793 cites W2111523729 @default.
W2371984793 cites W2113070063 @default.
W2371984793 cites W2113638573 @default.
W2371984793 cites W2114635550 @default.
W2371984793 cites W2114671565 @default.
W2371984793 cites W2116017038 @default.