@article{(International Science Index):http://iastem.com/publications/10011334,
  author    = {Fahad Alhussein and  Huaping Liu},
  email	    = {alhussef@oregonstate.edu}  ,
  title     = {Variable vs. Fixed Window Width Code Correlation Reference Waveform Receivers for Multipath Mitigation in Global Navigation Satellite Systems with Binary Offset Carrier and Multiplexed Binary Offset Carrier Signals},
  country   = {},
  abstract     = {This paper compares the multipath mitigation
performance of code correlation reference waveform receivers
with variable and fixed window width, for binary offset carrier
and multiplexed binary offset carrier signals typically used in
global navigation satellite systems. In the variable window width
method, such width is iteratively reduced until the distortion on
the discriminator with multipath is eliminated. This distortion is
measured as the Euclidean distance between the actual discriminator
(obtained with the incoming signal), and the local discriminator
(generated with a local copy of the signal). The variable window
width have shown better performance compared to the fixed window
width. In particular, the former yields zero error for all delays for
the BOC and MBOC signals considered, while the latter gives
rather large nonzero errors for small delays in all cases. Due to
its computational simplicity, the variable window width method is
perfectly suitable for implementation in low-cost receivers.},
    journal   = {International Journal of Computer, Electrical, Automation, Control and Information Engineering},  volume    = {14},
  number    = {7},
  year      = {2020},
  pages     = {28 - 34},
  ee        = {http://iastem.com/publications/10011334},
  url   	= {http://iastem.com/Publications?p=163},
  bibsource = {http://iastem.com/Publications},
  issn  	= {1307-6892},
  publisher = {International Science Index},
  index 	= {International Science Index 163, Computer and Information Engineering, 2020},