[[abstract]]© 2002 Institute of Electrical and Electronics Engineers - In this paper, we present a new all-digital carrier recovery loop for high-order quadrature amplitude modulation (QAM) signal constellations. The proposed approach is a blind phase-frequency detector structure that consists of a phase detector, a phase offset estimator, a frequency offset estimator, and a digital control oscillator. As compared with previous related approaches, the proposed algorithm provides a wider acquisition range of ±400 kHz and a more accurate estimation of frequency and phase offsets. These features are demonstrated by simulation results of the DOCSIS (Data-Over-Cable Service Interface Specifications) cable modem system[[department]]電機工程學
In this paper a novel method to realize the synchronization process in case of 32-QAM will be presen...
In order to increase the efficiency of dedicated frequency channels, i.e. to increase the specific d...
This work presents a new efficient parallel carrier recovery architecture suitable for ultrahigh spe...
[[abstract]]In this paper, we present a new all-digital carrier recovery loop for high-order quadrat...
AbstractThis paper provides a study of adaptive phase recovery in quadrature amplitude modulation (Q...
This paper introduces a novel blind frequency offset estimator for quadrature amplitude modulated (Q...
We introduce a new blind phase offset estimator for general Quadrature Amplitude Modulated (QAM) sig...
Two recent carrier recovery loops for high-order quadrature amplitude modulation (QAM) and optimisat...
In this paper, a novel phase estimator that can be employed for both square and cross Quadrature Amp...
In this paper, a novel phase estimator that can be employed for both square and cross Quadrature Amp...
Abstract—This letter proposes a class of blind feedforward carrier-phase estimators for higher order...
We introduce an application-specific circuit that can be programmed to efficiently perform blind car...
A feed-forward pilot-symbols aided carrier phase recovery scheme is described. The approach relies ...
This paper introduces 0 family of optimal blind feed-forward estimators for joint estimation of the ...
This paper introduces a novel blind frequency offset estimator for signaling using cross Quadrature ...
In this paper a novel method to realize the synchronization process in case of 32-QAM will be presen...
In order to increase the efficiency of dedicated frequency channels, i.e. to increase the specific d...
This work presents a new efficient parallel carrier recovery architecture suitable for ultrahigh spe...
[[abstract]]In this paper, we present a new all-digital carrier recovery loop for high-order quadrat...
AbstractThis paper provides a study of adaptive phase recovery in quadrature amplitude modulation (Q...
This paper introduces a novel blind frequency offset estimator for quadrature amplitude modulated (Q...
We introduce a new blind phase offset estimator for general Quadrature Amplitude Modulated (QAM) sig...
Two recent carrier recovery loops for high-order quadrature amplitude modulation (QAM) and optimisat...
In this paper, a novel phase estimator that can be employed for both square and cross Quadrature Amp...
In this paper, a novel phase estimator that can be employed for both square and cross Quadrature Amp...
Abstract—This letter proposes a class of blind feedforward carrier-phase estimators for higher order...
We introduce an application-specific circuit that can be programmed to efficiently perform blind car...
A feed-forward pilot-symbols aided carrier phase recovery scheme is described. The approach relies ...
This paper introduces 0 family of optimal blind feed-forward estimators for joint estimation of the ...
This paper introduces a novel blind frequency offset estimator for signaling using cross Quadrature ...
In this paper a novel method to realize the synchronization process in case of 32-QAM will be presen...
In order to increase the efficiency of dedicated frequency channels, i.e. to increase the specific d...
This work presents a new efficient parallel carrier recovery architecture suitable for ultrahigh spe...