Yun Ye scite author profile

Yun Ye

2Publications

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Chinese Academy of Sciences

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Pose Measurement of Drogue via Monocular Vision for Autonomous Aerial Refueling

Yin

et al. 2017

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Zero-based blind channel estimation and equalization

Ye¹

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Due to multipath propagation characteristics of frequency-selective channels, inter-symbol interference (ISI) is a major obstacle in high speed data transfer. At high speeds of data transfer, blind estimation is also necessary to fully utilize the available bandwidth. Therefore, blind channel estimation and subsequent equalization are necessary at the receiver to combat lSI. In this thesis, zero based blind channel estimation and equalization algorithms are proposed. For point to point communication systems, a single input single output (SISO) finite impulse response (FIR) channel model is used to describe the equivalent baseband system. Channel coefficient estimation and channel zero estimation for a minimum phase (MP) FIR channel is initially presented. It is shown that parameter estimation based on channel zeros is a natural and efficient way to estimate the channel coefficients. Furthermore, the estimation performance of the proposed algorithms through this approach can reach the bounds of blind channel parameter estimation. Based on the development of MP channel parameter estimation, blind channel parameter estimation algorithms for non-minimum phase (NMP) channels are also ATTENTION: The Singapore Copyright Act applies to the use of this document. Nanyang Technological University Library investigated. Initial channel zeros, obtained by second order statistics based methods, can be correctly located using higher order information of the received signal. The proposed algorithms use advantages of both second order statistics and higher order statistics. For multiple-receiver systems, a single input single output (SIMO) channel model is exploited. The proposed SISO NMP channel parameter estimation methods are extended to the parameter estimation of SIMO channel. Here all zeros of all sub-channels are determined by using the cross-relationship between individual sub-channels. It is well known that an equalizer at the output can be used to combat lSI and recover the unknown transmitted signal in high fidelity. Based on the estimated channel zeros, novel equalizer designs for SISO and SIMO channels are presented in the later part of the thesis. These equalizers belong to the categories of zero forcing (ZF) equalizer, minimum mean square error (MMSE) equalizer, and decision feedback equalizer (DFE). Traditionally, all equalizers are realized in FIR form as this is a guaranteed stable architecture. An efficient, stable infinite-impulse response (IIR) form for hardware implementation is also discussed in the thesis for reducing the length of equalizers. It is shown that the use of IIR architecture saves hardware register usage by a significant amount. An example of equalizer application in underwater acoustic (UWA) communication channel is provided which is designed by considering the characteristics ofthe UWA channel. For block transmission systems, a bi-directional zero based decision feedback equalizer (BizDFE) is also proposed.

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Yun Ye

Pose Measurement of Drogue via Monocular Vision for Autonomous Aerial Refueling

Zero-based blind channel estimation and equalization

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