The UWB technology and, more, the pulse shaping allow to apply the cognitive paradigm where the transmitter and receiver are the actors of this functionality ...
The UWB technology and, more, the pulse shaping allow to apply the cognitive paradigm where the transmitter and receiver are the actors of this functionality ...
This paper investigates the impact of UWB pulse shaping ... [7]. Biagi, Mauro, V. Polli. UltraWide Band Cognitive Pulse Shaping under Physical-Layer QoS.
Ultra wide band (UWB) systems induce interference on communication systems operating at range frequency from 0 to 10.6 GHz. This is the reason leading to an ...
UltraWide Band Cognitive Pulse Shaping under Physical-Layer QoS Constraints. IEEE Trans. Commun. 59(11): 3167-3176 (2011). [c6]. view. electronic edition via ...
... UltraWide Band Cognitive Pulse Shaping under Physical-Layer QoS Constraints, IEEE Transactions on. Communications, vol.59, no.11, pp.3167-3176, November 2011.
In this paper, we proposed an adaptive UWB-RFID physical layer. By tuning parameter settings for IR-UWB, we can support different QoS requirements (BER and Data ...
raw pulse rate R0,i = 1/Tf,i. Assuming that pulses generated at the physical layer have a width Tp, we transmit at a peak power Ppeak = Epeak/Tp = 0.28 mW ...
A proper candidate for the physical layer implementation of cognitive radio networks is ultra wideband (UWB), because UWB is highly competent in satisfying ...
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UltraWide Band Cognitive Pulse Shaping under Physical-Layer QoS Constraints · Computer Science, Engineering. IEEE Transactions on Communications · 2011.