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Continuous Phase Modulation With Faster-than-Nyquist Signaling for Channels With 1-bit Quantization and Oversampling at the Receiver
Continuous phase modulation (CPM) with 1-bit quantization at the receive...
10/15/2019 ∙ by Rodrigo R. M. de Alencar, et al. ∙
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Continuous Phase Modulation With 1-Bit Quantization and Oversampling Using Iterative Detection and Decoding
A channel with continuous phase modulation and 1-bit ADC with oversampli...
12/04/2019 ∙ by Rodrigo R. M. de Alencar, et al. ∙
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Binary Sequence Set Design for Interferer Rejection in Multi-Branch Modulation
Wideband communication is often expected to deal with a very wide spectr...
11/29/2018 ∙ by Dian Mo, et al. ∙
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Performance Comparison of 112 Gb/s DMT, Nyquist PAM4 and Partial-Response PAM4 for Future 5G Ethernet-based Fronthaul Architecture
For a future 5G Ethernet-based fronthaul architecture, 100G trunk lines ...
01/31/2018 ∙ by Nicklas Eiselt, et al. ∙
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Pointing Error Analysis of Optically Pre-Amplified Pulse Position Modulation Receivers
We present analytical results on the effect of pointing errors on the av...
12/14/2020 ∙ by Konstantinos Yiannopoulos, et al. ∙
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Zero-Crossing Precoding With Maximum Distance to the Decision Threshold for Channels With 1-Bit Quantization and Oversampling
Low-resolution devices are promising for systems that demand low energy ...
10/22/2019 ∙ by Diana M. V. Melo, et al. ∙
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Modulus Zero-Forcing Detection for MIMO Channels
We propose a modulus based zero-forcing (MZF) detection for multi-input ...
01/03/2018 ∙ by Sha Hu, et al. ∙
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Zero Crossing Modulation for Communication with Temporally Oversampled 1-Bit Quantization
12/02/2019 ∙ by Gerhard Fettweis, et al. ∙
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Today's communication systems typically use high resolution analog-to-digital converters (ADCs). However, considering future communication systems with data rates in the order of 100Gbit/s the ADC power consumption becomes a major factor due to the high sampling rates. A promising alternative are receivers based on 1-bit quantization and oversampling w.r.t. the signal bandwidth. Such an approach requires a redesign of modulation, receiver synchronization, and demapping. A zero crossing modulation is a natural choice as the information needs to be carried in the zero crossing time instants. The present paper provides an overview on zero crossing modulation, achievable rates, sequence mapping and demapping, 1-bit based channel parameter estimation, and continuous phase modulation as an alternative zero crossing modulation scheme.
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