MIMO Transmission over High Delay Spread Channels with Reduced Cyclic Prefix Length
نویسندگان
چکیده
Abstract—In 3GPP LTE communication systems, the physical layer is based on Orthogonal Frequency-Division Multiple Access and Single Carrier Frequency-Division Multiple Access in the downlink and uplink, respectively. For both schemes two different cyclic prefix (CP) lengths are standardized, a normal CP length and an extended version, the latter being intended for high delay spread channels. We retain the simple one tap equalizer and show that appropriate adaptation of the modulation and coding scheme, rather than extending the CP, yields better throughputs in a typical SNR regime of operation. The proposed adaptation takes the effects of the intersymbol (ISI) and intercarrier (ICI) interference into account, where the ISI/ICI is modelled as coloured noise, which degrades the SNR, and therefore directly affects the feedback parameters. Keywords—LTE-A, SC-FDMA, OFDMA , CP length, limited feedback, MBSFN
منابع مشابه
Performance of Frequency-Time MMSE Equalizer for MC-CDMA over Multipath Fading Channel
A cyclic prefix of sufficient length is inserted (longer than the maximum delay spread of the channel) in Multi-Carrier CDMA (MC-CDMA) transmission over dispersive channels such that the channel, as seen by subcarrier, is a simple multiplicative distortion in the frequency domain, that can be compensated for by a one-tap Frequency Equalizer (FE). If, in addition to the spectral inefficiency cau...
متن کاملAlgorithms and applications of channel impulse response length estimation for MIMO-OFDM
The performance of the widely applied timedomain channel estimation for SISOand MIMO-OFDM systems strongly depends on the preciseness of information regarding maximum channel impulse response (CIR) length. In practice the required CIR length is usually approximated by the length of the cyclic prefix which is an upper bound for most of the actual instantaneous CIR length. In this article, we int...
متن کاملAdaptive Zero-Padding OFDM over Frequency-Selective Multipath Channels
We present a novel bandwidth (BW) efficient orthogonal frequency division multiplexing (OFDM) scheme with adaptive zeropadding (AZP-OFDM) for wireless transmission. Redundancy issues in OFDM based on cyclic prefix (CP), zero-padding (ZP), as well as no guard interval (NGI) systems are analyzed. A novel system design criterion based on the channel matrix condition is studied and applied to the d...
متن کاملMulticarrier CDMA Systems using PCC-OFDM
1 This work was supported in part by an Australian Research Council grant Abstract Polynomial cancellation coded orthogonal frequency division multiplexing (PCC-OFDM) with overlapping symbol periods is a modulation scheme with properties that make it well suited to high speed data transmission including mobile applications. PCC-OFDM is much less sensitive to frequency offset and Doppler spread ...
متن کاملA Forward-Backward Kalman Filter-based STBC MIMO OFDM Receiver
Orthogonal frequency division multiplexing (OFDM) has emerged as a modulation scheme that can achieve high data rates over frequency selective fading channel by efficiently handling multipath effects. This paper proposes receiver design for spacetime block coded MIMO OFDM transmission over frequency selective time-variant channels. Joint channel and data recovery are performed at the receiver b...
متن کامل