The use of orthonormal scaling functions, wavelets and wavelet packets for modulation has been recently proposed in [1], [2], [5]. In this paper we study the performance of the Meyer, Daubechies, biorthogonal Spline, Battle-Lemarie, and modied Gaussian [8] families of wavelets, for modulation over linear and non-linear channels, and we propose the use of wavelets for modulation over FDM non-linear satellite channels and for multicarrier modulation on satellite and multipath channels
In the last decade, progress in digital signal processing has led to major changes in the wireless c...
Other than the conventional fast Fourier transform (FFT) for multicarrier modulation, a new approach...
Abstract: This examines the enactment of wavelet based on MIMO OFDM systems and also compare with th...
The use of orthonormal scaling functions, wavelets and wavelet packets for modulation has been recen...
The use of orthonormal scaling functions, wavelets and wavelet packets forpulse shaping has been rec...
In this paper the use of wavelets as shaping pulses to implement multicarrier modulation is describe...
Based on the good time-frequency localization of the pulse shaping, it is possible to build a multic...
NoIn the study of OFDM systems, discrete wavelet transforms have been reported to perform better tha...
NoWavelets are constructed from the basis sets of their parent scaling functions of the two-scale di...
The authors consider the viability of a wavelet-based multicarrier modulation (MCM) scheme as an alt...
Wavelets are becoming increasingly used as a tool for the analysis of non-stationary data. To transm...
yesThis paper investigates the performance of wavelet OFDM signals over a wireless communications l...
In this paper we first discuss two approaches for designing complex wavelet packets which can be use...
Recent studies suggest that multicarrier systems using wavelets outperform conventional OFDM systems...
The authors demonstrate that the use of scaling functions and wavelets as envelope functions for mod...
In the last decade, progress in digital signal processing has led to major changes in the wireless c...
Other than the conventional fast Fourier transform (FFT) for multicarrier modulation, a new approach...
Abstract: This examines the enactment of wavelet based on MIMO OFDM systems and also compare with th...
The use of orthonormal scaling functions, wavelets and wavelet packets for modulation has been recen...
The use of orthonormal scaling functions, wavelets and wavelet packets forpulse shaping has been rec...
In this paper the use of wavelets as shaping pulses to implement multicarrier modulation is describe...
Based on the good time-frequency localization of the pulse shaping, it is possible to build a multic...
NoIn the study of OFDM systems, discrete wavelet transforms have been reported to perform better tha...
NoWavelets are constructed from the basis sets of their parent scaling functions of the two-scale di...
The authors consider the viability of a wavelet-based multicarrier modulation (MCM) scheme as an alt...
Wavelets are becoming increasingly used as a tool for the analysis of non-stationary data. To transm...
yesThis paper investigates the performance of wavelet OFDM signals over a wireless communications l...
In this paper we first discuss two approaches for designing complex wavelet packets which can be use...
Recent studies suggest that multicarrier systems using wavelets outperform conventional OFDM systems...
The authors demonstrate that the use of scaling functions and wavelets as envelope functions for mod...
In the last decade, progress in digital signal processing has led to major changes in the wireless c...
Other than the conventional fast Fourier transform (FFT) for multicarrier modulation, a new approach...
Abstract: This examines the enactment of wavelet based on MIMO OFDM systems and also compare with th...