Transmitted-Reference (TR) receivers represent a low complexity alternative to RAKE receivers, which are widely used in Ultra Wideband (UWB) communications. Known TR schemes are not very energy efficient since two pulses represent one bit value only. Therefore, we present a TR Pulse Interval Amplitude Modulation (PIAM) scheme which reduces the required energy per bit and a low complexity receiver structure for TR PIAM. We investigate the performance of TR 4PIAM analytically and by means of simulation and show that higher modulation alphabets can be adapted easily. Moreover, we show that there exists an optimal correlation length for transmission over multipath channels
Recently, there has been significant interest in ultrawideband (UWB) radio techniques. A promising U...
In traditional transmitted reference (TR) ultrawideband systems the reference component is time-shi...
78 p.A promising ultra-wideband radio technology being widely considered for low data rate applicati...
Abstract — In a pulsed UWB system, either coherent receivers or transmit-reference (TR) receivers ca...
Abstract—Transmitted reference (TR) modulation schemes, initially proposed for spread spectrums in 1...
Abstract — Ultrawideband communications often occur in het-erogeneous networks where different recei...
This thesis investigates the performances of the Rake receiving and the Transmitted Reference (TR) s...
The transmitted reference (TR) scheme has gained attention for ultra-wideband (UWB) communications...
This paper considers signaling schemes for heterogeneous ultrawideband communications networks that ...
Abstract—Transmit-reference (TR) is known as a realistic but low data rate candidate for ultra-wideb...
Generalized ultra-wide bandwidth (UWB) transmitted reference (TR) receivers proposed previously in t...
Abstract—A communication system based on transmit-reference (TR) ultra-wideband (UWB) is studied and...
Abstract — In modern world of communication system, a coded M-ary pulse position modulation (PPM) sc...
Ultra-wideband (UWB) communication systems have been considered for future short-range wireless comm...
Transmit-reference (TR) schemes are commonly used only in low data rate ultra-wideband (UWB) systems...
Recently, there has been significant interest in ultrawideband (UWB) radio techniques. A promising U...
In traditional transmitted reference (TR) ultrawideband systems the reference component is time-shi...
78 p.A promising ultra-wideband radio technology being widely considered for low data rate applicati...
Abstract — In a pulsed UWB system, either coherent receivers or transmit-reference (TR) receivers ca...
Abstract—Transmitted reference (TR) modulation schemes, initially proposed for spread spectrums in 1...
Abstract — Ultrawideband communications often occur in het-erogeneous networks where different recei...
This thesis investigates the performances of the Rake receiving and the Transmitted Reference (TR) s...
The transmitted reference (TR) scheme has gained attention for ultra-wideband (UWB) communications...
This paper considers signaling schemes for heterogeneous ultrawideband communications networks that ...
Abstract—Transmit-reference (TR) is known as a realistic but low data rate candidate for ultra-wideb...
Generalized ultra-wide bandwidth (UWB) transmitted reference (TR) receivers proposed previously in t...
Abstract—A communication system based on transmit-reference (TR) ultra-wideband (UWB) is studied and...
Abstract — In modern world of communication system, a coded M-ary pulse position modulation (PPM) sc...
Ultra-wideband (UWB) communication systems have been considered for future short-range wireless comm...
Transmit-reference (TR) schemes are commonly used only in low data rate ultra-wideband (UWB) systems...
Recently, there has been significant interest in ultrawideband (UWB) radio techniques. A promising U...
In traditional transmitted reference (TR) ultrawideband systems the reference component is time-shi...
78 p.A promising ultra-wideband radio technology being widely considered for low data rate applicati...