Noncoherent receivers are attractive for pulsed UWB systems due to the implementation simplicity. To alleviate the noise effect in detecting UWB PPM signals, this letter proposes a simple yet flexible weighted noncoherent receiver structure, which adopts a square-law integrator multiplied with a window function. The integrator outputs captured within different integration time windows are weighted and linear combined to generate decision statistic, in which smaller weights are imposed on outputs having larger noise contributions. Optimal and suboptimal weighting coefficients are derived to maximize the detection BER. Both analysis and simulations verify the effectiveness of weighted processing in reducing the noise level in noncoherent rece...
he need for low-complexity devices with low-power consumption motivates the application of subopti-m...
Non-coherent receivers are attractive for pulsed UWB systems due to the implementation simplicity. H...
Thesis (M. Eng.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Compute...
Noncoherent receivers are attractive for pulsed UWB systems due to the implementation simplicity. To...
Noncoherent receivers are attractive for pulsed UWB systems due to the implementation simplicity. In...
Noncoherent receivers are attractive for pulsed UWB systems due to the implementation simplicity. In...
For ultra-wideband (UWB) impulse radios, noncoherent energy detectors are motivated for their simple...
Non-coherent energy detectors are motivated for ultrawideband (UWB) impulse radios with simple circu...
Non-coherent energy detectors are motivated for ultrawideband (UWB) impulse radios with simple circu...
We present a comparison between coherent and noncoherent UWB receivers, under a realistic propagati...
UWB communication is an attractive technology that has the potential to provide low-power, low-compl...
Abstract—This paper focuses on the symbol detection problem of random pulse-position modulation (PPM...
This paper focuses on the symbol detection problem of random pulse-position modulation (PPM) ultrawi...
We propose a non-coherent ultra-wideband (UWB) receiver that leverages a single-sample-per-pulse thr...
Over the last few years there has been an emerging interest in non-coherent ultrawideband (UWB) comm...
he need for low-complexity devices with low-power consumption motivates the application of subopti-m...
Non-coherent receivers are attractive for pulsed UWB systems due to the implementation simplicity. H...
Thesis (M. Eng.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Compute...
Noncoherent receivers are attractive for pulsed UWB systems due to the implementation simplicity. To...
Noncoherent receivers are attractive for pulsed UWB systems due to the implementation simplicity. In...
Noncoherent receivers are attractive for pulsed UWB systems due to the implementation simplicity. In...
For ultra-wideband (UWB) impulse radios, noncoherent energy detectors are motivated for their simple...
Non-coherent energy detectors are motivated for ultrawideband (UWB) impulse radios with simple circu...
Non-coherent energy detectors are motivated for ultrawideband (UWB) impulse radios with simple circu...
We present a comparison between coherent and noncoherent UWB receivers, under a realistic propagati...
UWB communication is an attractive technology that has the potential to provide low-power, low-compl...
Abstract—This paper focuses on the symbol detection problem of random pulse-position modulation (PPM...
This paper focuses on the symbol detection problem of random pulse-position modulation (PPM) ultrawi...
We propose a non-coherent ultra-wideband (UWB) receiver that leverages a single-sample-per-pulse thr...
Over the last few years there has been an emerging interest in non-coherent ultrawideband (UWB) comm...
he need for low-complexity devices with low-power consumption motivates the application of subopti-m...
Non-coherent receivers are attractive for pulsed UWB systems due to the implementation simplicity. H...
Thesis (M. Eng.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Compute...