João Guerreiro scite author profile

João Guerreiro

3Publications

76Citation Statements Received

95Citation Statements Given

How they've been cited

130

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Affiliations

Instituto de Telecomunicações, Universidade Nova de Lisboa, Autonomous University of Lisbon

Publications

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Optimum and Sub-Optimum Receivers for OFDM Signals with Strong Nonlinear Distortion Effects

Guerreiro¹,

Dinis

Montezuma

2013

IEEE Trans. Commun.

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Abstract:In this paper we consider the optimum detection of OFDM (Orthogonal Frequency Division Multiplexing) signals with strong nonlinear distortion effects. It is shown that the optimum performance with strong nonlinear distortion effects is not as bad as one might expect and can even be better than the performance with conventional, linear transmitters. To achieve these excellent performances we should employ receivers able to take advantage of the information associated to transmitted data symbols that is inherent to the nonlinear distortion component, in opposition to traditional OFDM implementations where nonlinear distortion effects are regarded as an undesirable noise-like component. We study the achievable gains of the optimum receiver both analytically and by simulation. Since the complexity of optimum receivers is extremely high when we have nonlinear distortion effects, even for OFDM signals with a small number of subcarriers, we propose several sub-optimum receivers and evaluate their performance. Our sub-optimal receivers allow remarkable performance improvements, being able to reduce significantly the gap between the optimum performance and the performance of typical OFDM receivers.

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Use of 1‐bit digital‐to‐analogue converters in massive MIMO systems

Guerreiro

Dinis

Montezuma

2016

Electronics Letters

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Massive multiple input multiple output (MIMO) systems are being proposed for next generation broadband wireless systems. However, as the complexity of implementation grows with the number of antenna elements, their feasibility is a challenging task. In this work, we consider very low complexity, 1-bit digital-to-analogue converters (DACs) for the downlink of massive MIMO systems. We analyse the impact of the resultant severe nonlinear distortion effects when a low-complexity maximum ratio transmission (MRT) technique is employed for user separation. We show that the nonlinear distortion levels decrease with the number of transmit antennas allowing good performance, even with 1-bit DACs.

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On the 5G and Beyond

Silva

Guerreiro

2020

Applied Sciences

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This article provides an overview of the fifth generation of cellular communications (5G) and beyond. It presents the transmission techniques of current 5G communications and those expected of future developments, namely a brief study of non-orthogonal multiple access (NOMA) using the single carrier with frequency domain equalization (SC-FDE) block transmission technique, evidencing its added value in terms of spectral efficiency. An introduction to the sixth generation of cellular communications (6G) is also provided. The insertion of 5G and 6G within the Fourth Industrial Revolution framework (also known as Industry 4.0) is also dealt with. Consisting of a change in paradigm, when compared to previous generations, 5G supports a myriad of new services based on the Internet of things (IoT) and on vehicle-to-vehicle (V2V) communications, supporting technologies such as autonomous driving, smart cities, and remote surgery. The new services provided by 5G are supported by new techniques, such as millimeter waves (mm-wave), in addition to traditional microwave communication, and by massive multiple-input multiple-output (m-MIMO) technology. These techniques were not employed in the fourth generation of cellular communications (4G). While 5G plays an important role in the initial implementation of the Fourth Industrial Revolution, 6G will address a number of new services such as virtual reality (VR), augmented reality (AR), holographic services, the advanced Internet of things (IoT), AI-infused applications, wireless brain–computer interaction (BCI), and mobility at higher speeds. The current research on systems beyond 5G indicates that these applications shall be supported by new MIMO techniques and make use of terahertz (THz) bands.

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João Guerreiro

Optimum and Sub-Optimum Receivers for OFDM Signals with Strong Nonlinear Distortion Effects

Use of 1‐bit digital‐to‐analogue converters in massive MIMO systems

On the 5G and Beyond

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