Your search keyword '"Björnson, Emil"' showing total 184 results

1. Optimizing Reconfigurable Intelligent Surfaces for Short Transmissions: How Detailed Configurations Can Be Afforded?

Author

Enqvist, Anders, primary, Demir, Özlem Tuğfe, additional, Cavdar, Cicek, additional, and Björnson, Emil, additional

Published

2024

2. Optimizing Reconfigurable Intelligent Surfaces for Short Transmissions : How Detailed Configurations can be Afforded?

Author

Enqvist, Anders, Demir, Özlem Tuğfe, Cavdar, Cicek, Björnson, Emil, Enqvist, Anders, Demir, Özlem Tuğfe, Cavdar, Cicek, and Björnson, Emil

Abstract

This paper examines how to minimize the energy consumption of a user equipment (UE) when transmitting short data payloads. The receiving base station (BS) controls a reconfigurable intelligent surface (RIS), which requires additional pilot signals to be configured, to improve the channel conditions. The challenge is that the pilot signals increase the energy consumption and must be balanced against energy savings during data transmission. We derive a formula for the energy consumption, including both pilot and data transmission powers and the effects of imperfect channel state information and discrete phase-shifts. To shorten the pilot length, we propose dividing the RIS into subarrays of multiple elements using the same reflection coefficient. The pilot power and subarray size are tuned to the payload length to minimize the energy consumption. Analytical results show that there exists a unique energy-minimizing solution. For small payloads and when the direct path loss between the BS and UE is weak compared to the path loss via the RIS, the solution is using subarrays with many elements and low pilot power and vice versa. The optimal percentage of energy spent on pilot signaling is in the order of 10-40%., QC 20240212

Published

2024

3. Joint Pilot-Based Localization and Channel Estimation in RIS-Aided Communication Systems

Author

Gürgünoğlu, Doğa, Björnson, Emil, Fodor, Gabor, Gürgünoğlu, Doğa, Björnson, Emil, and Fodor, Gabor

Abstract

In this letter, we investigate the use of reconfigurable intelligent surfaces (RISs) to jointly estimate the position and channel of a user equipment (UE) using uplink pilot signals. We consider a setup with a user and a base station (BS), where the direct path between the BS and the UE is blocked and virtual line-of-sight (LOS) links are created over two reconfigurable intelligent surfaces (RISs). We investigate the benefits of exploiting the channel geometry to estimate the user’s position and the user-RIS channels jointly in terms of estimation performance and pilot overhead. To this end, we consider the Cramér-Rao Lower Bound for channel estimation and UE localization. Our numerical results show that exploiting the LOS structure of the channels improves the channel estimation performance by several orders of magnitude and reduces the channel estimation performance by reducing the number of unknown parameters., QC 20240911

Published

2024

4. Performance Analysis for ISAC Systems with 1-bit DACs

Author

Salman, Murat Babek, Demir, Özlem Tuğfe, Björnson, Emil, Salman, Murat Babek, Demir, Özlem Tuğfe, and Björnson, Emil

Abstract

Low-resolution quantization constrains the maximum achievable gains of multiple-input multiple-output (MIMO) systems. While the adverse effects and mitigation strategies have been thoroughly analyzed for communication systems, the impact of low-resolution quantization on integrated sensing and communication (ISAC) systems remains insufficiently explored in the existing literature. In this paper, we propose an analysis and design framework to investigate and mitigate the effects of 1-bit digital to analog converters (DACs) for ISAC systems. Firstly, an analytical sensing signal-to-noise ratio (SNR) expression is derived by using the Bussgang decomposition. Furthermore, two different methodologies are proposed to design a transmit waveform that satisfies both communication and sensing requirements simultaneously. The first method uses a separate constant modulus (CM) sensing signal since CM signals are known to be more robust to nonlinear distortion than orthogonal frequency division multiplexing (OFDM) modulated signals. The second method employs the squared-infinity norm Douglas-Rachford splitting (SQUID) approach to construct the transmit waveform using nonlinear quantized precoding. Finally, the performance of the proposed methods are validated via numerical simulations to indicate the complexity-performance tradeoff between two different methods., Part of ISBN 9798350362510QC 20240919

Published

2024

5. Resource Efficient Over-the-Air Fronthaul Signaling for Uplink Cell-Free Massive MIMO Systems

Author

Shaik, Zakir Hussain, Thoota, Sai Subramanyam, Björnson, Emil, Larsson, Erik G., Shaik, Zakir Hussain, Thoota, Sai Subramanyam, Björnson, Emil, and Larsson, Erik G.

Abstract

We propose a novel resource efficient analog over-the-air (OTA) computation framework to address the demanding requirements of the uplink (UL) fronthaul between the access points (APs) and the central processing unit (CPU) in cell-free massive multiple-input multiple-output (MIMO) systems. We discuss the drawbacks of the wired and wireless fronthaul solutions, and show that our proposed mechanism is efficient and scalable as the number of APs increases. We present the transmit precoding and two-phase power assignment strategies at the APs to coherently combine the signals OTA in a spectrally efficient manner. We derive the statistics of the APs' locally available signals which enable us to to obtain the analytical expressions for the Bayesian and classical estimators of the OTA combined signals. We empirically evaluate the normalized mean square error (NMSE), symbol error rate (SER), and the coded bit error rate (BER) of our developed solution and benchmark against the state-of-the-art wired fronthaul based system., Part of ISBN 9781728190549QC 20240924

Published

2024

6. Dynamic RF Charging of Zero-Energy Devices via Reconfigurable Intelligent Surfaces

Author

Tavana, Morteza, Masoudi, Meysam, Björnson, Emil, Tavana, Morteza, Masoudi, Meysam, and Björnson, Emil

Abstract

Communication networks can achieve self-sustainability with the help of reconfigurable intelligent surfaces (RIS) that direct electromagnetic waves toward zero-energy devices (ZEDs) for energy harvesting. The harvested energy charges the ZEDs' batteries, reduces their dependency on external energy sources and enables energy neutrality. In this letter, we propose a dynamic algorithm that adjusts the joint RIS and TX phases based on the battery levels to maximize a weighted-sum power metric favoring ZEDs with lower battery levels. The simulation results show that threshold-based weighting slightly underperforms compared to the weighting with optimal parameters while requiring less data exchange with the network entity manager., QC 20240903

Published

2024

7. Combating Inter-Operator Pilot Contamination in Reconfigurable Intelligent Surfaces Assisted Multi-Operator Networks

Author

Gurgunoglu, Doga, Björnson, Emil, Fodor, Gabor, Gurgunoglu, Doga, Björnson, Emil, and Fodor, Gabor

Abstract

In this paper, we study a new kind of pilot contamination appearing in multi-operator reconfigurable intelligent surfaces (RIS) assisted networks, where multiple operators provide services to their respective served users. The operators use dedicated frequency bands, but each RIS inadvertently reflects the transmitted uplink signals of the user equipment devices in multiple bands. Consequently, the concurrent reflection of pilot signals during the channel estimation phase introduces a new inter-operator pilot contamination effect. We investigate the implications of this effect in systems with either deterministic or correlated Rayleigh fading channels, specifically focusing on its impact on channel estimation quality, signal equalization, and channel capacity. The numerical results demonstrate the substantial degradation in system performance caused by this phenomenon and highlight the pressing need to address inter-operator pilot contamination in multi-operator RIS deployments. To combat the negative effect of this new type of pilot contamination, we propose to use orthogonal RIS configurations during uplink pilot transmission, which can mitigate or eliminate the negative effect of inter-operator pilot contamination at the expense of some inter-operator information exchange and orchestration., QC 20240416

Published

2024

8. Soft Handover Procedures in mmWave Cell-Free Massive MIMO Networks

Author

Zaher, Mahmoud, Björnson, Emil, Petrova, Marina, Zaher, Mahmoud, Björnson, Emil, and Petrova, Marina

Abstract

This paper considers a mmWave cell-free massive MIMO (multiple-input multiple-output) network composed of a large number of geographically distributed access points (APs) simultaneously serving multiple user equipments (UEs) via coherent joint transmission. We address UE mobility in the downlink (DL) with imperfect channel state information (CSI) and pilot training. Aiming at extending traditional handover concepts to the challenging AP-UE association strategies of cell-free networks, distributed algorithms for joint pilot assignment and cluster formation are proposed in a dynamic environment considering UE mobility. The algorithms provide a systematic procedure for initial access and update of the serving APs and assigned pilot sequence to each UE. The principal goal is to limit the necessary number of AP and pilot changes, while limiting computational complexity. We evaluate the performance, in terms of spectral efficiency (SE), with maximum ratio and regularized zero-forcing precoding. Results show that our proposed distributed algorithms effectively identify the essential AP-UE association refinements with orders-of-magnitude lower computational time compared to the state-of-the-art. It also provides a significantly lower average number of pilot changes compared to an ultra-dense network (UDN). Moreover, we develop an improved pilot assignment procedure that facilitates massive access to the network in highly loaded scenarios., QC 20240711

Published

2024

9. Secure Spatial Signal Design for ISAC in a Cell-Free MIMO Network

Author

Rivetti, Steven, Björnson, Emil, Skoglund, Mikael, Rivetti, Steven, Björnson, Emil, and Skoglund, Mikael

Abstract

In this paper, we study a cell-free multiple-input multiple-output network equipped with integrated sensing and communication (ISAC) access points (APs). The distributed APs are used to jointly serve the communication needs of user equipments (UEs) while sensing a target, assumed to be an eavesdropper (Eve). To increase the system's robustness towards said Eve, we develop an ISAC waveform model that includes artificial noise (AN) aimed at degrading the Eve channel quality. The central processing unit receives the observations from each AP and calculates the optimal precoding and AN covariance matrices by solving a semi-definite relaxation of a constrained Cramer-Rao bound (CRB) minimization problem. Simulation results highlight an underlying trade-off between sensing and communication performances: in particular, the UEs signal-to-noise and interference ratio and the maximum Eve's signal to noise ratio are directly proportional to the CRB. Furthermore, the optimal AN covariance matrix is rank-1 and has a peak in the eve's direction, leading to a surprising inverse-proportionality between the UEs-Eve distance and optimal-CRB magnitude., Part of ISBN 979-8-3503-0358-2QC 20240725

Published

2024

10. Malicious Reconfigurable Intelligent Surfaces : How Impactful Can Destructive Beamforming be?

Author

Rivetti, Steven, Demir, Özlem Tuğfe, Björnson, Emil, Skoglund, Mikael, Rivetti, Steven, Demir, Özlem Tuğfe, Björnson, Emil, and Skoglund, Mikael

Abstract

Reconfigurable intelligent surfaces (RISs) have demonstrated significant potential for enhancing communication system performance if properly configured. However, a RIS might also pose a risk to the network security. In this letter, we explore the impact of a malicious RIS on a multi-user multiple-input single-output (MISO) system when the system is unaware of the RIS's malicious intentions. The objective of the malicious RIS is to degrade the signal-to-noise ratio (SNR) of a specific user equipment (UE), with the option of preserving the SNR of the other UEs, making the attack harder to detect. To achieve this goal, we derive the optimal RIS phase-shift pattern, assuming perfect channel state information (CSI) at the hacker. We then relax this assumption by introducing CSI uncertainties and subsequently determine the RIS's phase-shift pattern using a robust optimization approach. Our simulations reveal a direct proportionality between the performance degradation caused by the malicious RIS and the number of reflective elements, along with resilience toward CSI uncertainties., QC 20240722

Published

2024

11. Nonlinear Distortion Issues Created by Active Reconfigurable Intelligent Surfaces

Author

Kolomvakis, Nikolaos, Björnson, Emil, Kolomvakis, Nikolaos, and Björnson, Emil

Abstract

Reconfigurable intelligent surfaces (RISs) can improve the propagation conditions over wireless channels but a passively reflecting RIS must be large to be effective. Active RIS with amplifiers can deal with this issue. In this paper, we study the distortion created by nonlinear amplifiers in active RIS. We analytically obtain the directions of the reflected distortion when the desired signals arrive from specific azimuth and elevation angles. The results are demonstrated numerically and we conclude that nonlinearities can both create in-band and out-of-band distortion that is beamformed in entirely new directions., Part of ISBN 978-88-31299-09-1QC 20240718

Published

2024

12. Unknown Interference Modeling for Rate Adaptation in Cell-Free Massive MIMO Networks

Author

Zaher, Mahmoud, Björnson, Emil, Petrova, Marina, Zaher, Mahmoud, Björnson, Emil, and Petrova, Marina

Abstract

Co-channel interference poses a challenge in any wireless communication network where the time-frequency resources are reused over different geographical areas. The interference is particularly diverse in cell-free massive multiple-input multiple-output (MIMO) networks, where a large number of user equipments (UEs) are multiplexed by a multitude of access points (APs) on the same time-frequency resources. For realistic and scalable network operation, only the interference from UEs belonging to the same serving cluster of APs can be estimated in real-time and suppressed by precoding/combining. As a result, the unknown interference arising from scheduling variations in neighboring clusters makes the rate adaptation hard and can lead to outages. This paper aims to model the unknown interference power in the uplink of a cell-free massive MIMO network. The results show that the proposed method effectively describes the distribution of the unknown interference power and provides a tool for rate adaptation with guaranteed target outage., Part of ISBN 9798350303582QC 20240725

Published

2024

13. Joint Energy and Latency Optimization in Federated Learning over Cell-Free Massive MIMO Networks

Author

Mahmoudi, Afsaneh, Zaher, Mahmoud, Björnson, Emil, Mahmoudi, Afsaneh, Zaher, Mahmoud, and Björnson, Emil

Abstract

Federated learning (FL) is a distributed learning paradigm wherein users exchange FL models with a server instead of raw datasets, thereby preserving data privacy and reducing communication overhead. However, the increased number of FL users may hinder completing large-scale FL over wireless networks due to high imposed latency. Cell-free massive multiple-input multiple-output (CFmMIMO) is a promising architecture for implementing FL because it serves many users on the same time/frequency resources. While CFmMIMO enhances energy efficiency through spatial multiplexing and collaborative beamforming, it remains crucial to meticulously allocate uplink transmission powers to the FL users. In this paper, we propose an uplink power allocation scheme in FL over CFmMIMO by considering the effect of each user's power on the energy and latency of other users to jointly minimize the users' uplink energy and the latency of FL training. The proposed solution algorithm is based on the coordinate gradient descent method. Numerical results show that our proposed method outperforms the well-known max-sum rate by increasing up to 27% and max-min energy efficiency of the Dinkelbach method by increasing up to 21 % in terms of test accuracy while having limited uplink energy and latency budget for FL over CFmMIMO., Part of ISBN 9798350303582QC 20240725

Published

2024

14. Downlink Pilots are Essential for Cell-Free Massive MIMO with Multi-Antenna Users

Author

Kama, Eren Berk, Kim, Junbeom, Björnson, Emil, Kama, Eren Berk, Kim, Junbeom, and Björnson, Emil

Abstract

We consider a cell-free massive MIMO system with multiple antennas on the users and access points. In previous works, the downlink spectral efficiency (SE) has been evaluated using the hardening bound that requires no downlink pilots. This approach works well when having single-antenna users. In this paper, we show that much higher SEs can be achieved if downlink pilots are sent since the effective channel matrix does not harden when having multi-antenna users. We propose a pilot-based downlink estimation scheme and derive a new SE expression that utilizes zero-forcing combining. We show numerically how the number of users and user antennas affects the SE., Part of ISBN 9798350303582QC 20240725

Published

2024

15. Mixed Static and Reconfigurable Metasurface Deployment in Indoor Dense Spaces : How Much Reconfigurability is Needed?

Author

Li, Zhenyu, Topal, Ozan Alp, Demir, Özlem Tuǧfe, Björnson, Emil, Cavdar, Cicek, Li, Zhenyu, Topal, Ozan Alp, Demir, Özlem Tuǧfe, Björnson, Emil, and Cavdar, Cicek

Abstract

In this paper, we investigate how metasurfaces can be deployed to deliver high data rates in a millimeter-wave (mmWave) indoor dense space with many blocking objects. These surfaces can either be static metasurfaces (SMSs) that reflect with fixed phase-shifts or reconfigurable intelligent surfaces (RISs) that can reconfigure their phase-shifts to the currently served user. The latter comes with an increased power, cabling, and signaling cost. To see how reconfigurability affects the network performance, we propose an iterative algorithm based on the feasible point pursuit successive convex approximation method. We jointly optimize the types and phase-shifts of the surfaces and the time portion allocated to each user equipment to maximize the minimum data rate achieved by the network. Our numerical results demonstrate that the minimum data rate improves as more RISs are introduced but the gain diminishes after some point. Therefore, introducing more reconfigurability is not always necessary. Another result shows that to reach the same data rate achieved by using 22 SMSs, at least 18 RISs are needed. This suggests that when it is costly to deploy many RISs, as an inexpensive alternative solution, one can reach the same data rate just by densely deploying more SMSs., Part of ISBN 9798350303582QC 20240725

Published

2024

16. Analysis of Quantization Noise Suppression Gains in Digital Phased Arrays

Author

Kennerland, Erik, Lindoff, Bengt, Björnson, Emil, Kennerland, Erik, Lindoff, Bengt, and Björnson, Emil

Abstract

Digital phased arrays have often been disregarded for millimeter-wave communications since the analog-to-digital converters (ADCs) are power-hungry. In this paper, we provide a different perspective on this matter by demonstrating analytically and numerically how the ADC resolution can be reduced when using digital phased arrays. We perform a theoretical analysis of the quantization noise characteristics for an OFDM signal received and processed by a digital phased array, using Gaussian approximation of the OFDM signal. In particular, we quantify the quantization noise suppression factor analytically and numerically. This factor describes how much the coherent combining reduces the quantization noise as a function of the number of antennas, which allows for reducing the ADC bit resolution. For instance in a 8-16 antenna digital phased array the ADC resolution can be reduced with 1-2 bits compared to the ADC required for an analog phased array., Part of ISBN 9798350303582QC 20240725

Published

2024

17. Pilot Length Optimization With RS-LS Channel Estimation for Extremely Large Aperture Arrays

Author

Alicioǧlu, Mert, Demir, Özlem Tuǧfe, Björnson, Emil, Alicioǧlu, Mert, Demir, Özlem Tuǧfe, and Björnson, Emil

Abstract

Extremely large aperture arrays can enable unprecedented spatial multiplexing in beyond 5G systems due to their extremely narrow beamfocusing capabilities. However, acquiring the spatial correlation matrix to enable efficient channel estimation is a complex task due to the vast number of antenna dimensions. Recently, a new estimation method called the 'reduced-subspace least squares (RS-LS) estimator' has been proposed for densely packed arrays. This method relies solely on the geometry of the array to limit the estimation resources. In this paper, we address a gap in the existing literature by deriving the average spectral efficiency for a certain distribution of user equipments (UEs) and a lower bound on it when using the RS-LS estimator. This bound is determined by the channel gain and the statistics of the normalized spatial correlation matrices of potential UEs but, importantly, does not require knowledge of a specific UE's spatial correlation matrix. We establish that there exists a pilot length that maximizes this expression. Additionally, we derive an approximate expression for the optimal pilot length under low signal-to-noise ratio (SNR) conditions. Simulation results validate the tightness of the derived lower bound and the effectiveness of using the optimized pilot length., Part of ISBN 9798350303582QC 20240724

Published

2024

18. Beam Coherence Time Analysis for Mobile Wideband mmWave Point-to-Point MIMO Channels

Author

Khorsandmanesh, Yasaman, Björnson, Emil, Jaldén, Joakim, Lindoff, Bengt, Khorsandmanesh, Yasaman, Björnson, Emil, Jaldén, Joakim, and Lindoff, Bengt

Abstract

Multi-Gbps data rates are achievable in millimeter-wave (mmWave) bands, but a prominent issue is the tiny wavelength that results in rapid fading variations and significant pilot signaling for channel estimation. In this letter, we recognize that the angles of scattering clusters seen from the UE vary slowly compared to the small-scale fading. We characterize the beam coherence time, which quantifies how frequently the UE must update its downlink receive combining matrix. The exact beam coherence time is derived in the single-cluster case, and an achievable lower bound is proposed for the multi-cluster case. These values are determined so that at least half of the received signal gain is maintained in between the combining updates. We demonstrate how the beam coherence time can be hundreds of times larger than the channel coherence time of the small-scale fading., QC 20240702

Published

2024

19. Multi-Static Target Detection and Power Allocation for Integrated Sensing and Communication in Cell-Free Massive MIMO

Author

Behdad, Zinat, Demir, Özlem Tuğfe, Sung, Ki Won, Björnson, Emil, Cavdar, Cicek, Behdad, Zinat, Demir, Özlem Tuğfe, Sung, Ki Won, Björnson, Emil, and Cavdar, Cicek

Abstract

This paper studies an integrated sensing and communication (ISAC) system within a centralized cell-free massive MIMO (multiple-input multiple-output) network for target detection. ISAC transmit access points serve the user equipments in the downlink and optionally steer a beam toward the target in a multi-static sensing framework. A maximum a posteriori ratio test detector is developed for target detection in the presence of clutter, so-called target-free signals. Additionally, sensing spectral efficiency (SE) is introduced as a key metric, capturing the impact of resource utilization in ISAC. A power allocation algorithm is proposed to maximize the sensing signal-to-interference-plus-noise ratio while ensuring minimum communication requirements. Two ISAC configurations are studied: utilizing existing communication beams for sensing and using additional sensing beams. The proposed algorithm’s efficiency is investigated in realistic and idealistic scenarios, corresponding to the presence and absence of the target-free channels, respectively. Despite performance degradation in the presence of target-free channels, the proposed algorithm outperforms the interference-unaware benchmark, leveraging clutter statistics. Comparisons with a fully communication-centric algorithm reveal superior performance in both cluttered and clutter-free environments. The incorporation of an extra sensing beam enhances detection performance for lower radar cross-section variances. Moreover, the results demonstrate the effectiveness of the integrated operation of sensing and communication compared to an orthogonal resource-sharing approach., QC 20240430

Published

2024

20. UL-DL Duality for Cell-Free Massive MIMO With Per-AP Power and Information Constraints

Author

Miretti, Lorenzo, Cavalcante, Renato Luis Garrido, Björnson, Emil, Stanczak, Slawomir, Miretti, Lorenzo, Cavalcante, Renato Luis Garrido, Björnson, Emil, and Stanczak, Slawomir

Abstract

We derive a novel uplink-downlink duality principle for optimal joint precoding design under per-transmitter power and information constraints in fading channels. The information constraints model limited sharing of channel state information and data bearing signals across the transmitters. The main application is to cell-free networks, where each access point (AP) must typically satisfy an individual power constraint and form its transmit signal using limited cooperation capabilities. Our duality principle applies to ergodic achievable rates given by the popular hardening bound, and it can be interpreted as a nontrivial generalization of a previous result by Yu and Lan for deterministic channels. This generalization allows us to study involved information constraints going beyond the simple case of cluster-wise centralized precoding covered by previous techniques. Specifically, we show that the optimal joint precoders are, in general, given by an extension of the recently developed team minimum mean-square error method. As a particular yet practical example, we then solve the problem of optimal local precoding design in user-centric cell-free massive MIMO networks subject to per-AP power constraints., QC 20240429

Published

2024

21. UL-DL Duality for Cell-Free Massive MIMO With Per-AP Power and Information Constraints

Author

Miretti, Lorenzo, primary, Cavalcante, Renato Luís Garrido, additional, Björnson, Emil, additional, and Stańczak, Sławomir, additional

Published

2024

22. Combating Inter-Operator Pilot Contamination in Reconfigurable Intelligent Surfaces Assisted Multi-Operator Networks

Author

Gürgünoğlu, Doğa, primary, Björnson, Emil, additional, and Fodor, Gábor, additional

Published

2024

23. Finite Beam Depth Analysis for Large Arrays

Author

Kosasih, Alva, primary and Björnson, Emil, additional

Published

2024

24. Cell-Free Massive MIMO in O-RAN: Energy-Aware Joint Orchestration of Cloud, Fronthaul, and Radio Resources

Author

Demir, Özlem Tugfe, primary, Masoudi, Meysam, additional, Björnson, Emil, additional, and Cavdar, Cicek, additional

Published

2024

25. Energy-Efficient Cell-Free Massive MIMO Through Sparse Large-Scale Fading Processing

Author

Chen, Shuaifei, primary, Zhang, Jiayi, additional, Björnson, Emil, additional, Demir, Özlem Tuğfe, additional, and Ai, Bo, additional

Published

2023

26. Another Twist to the Scalability in Cell-Free Massive MIMO Networks

Author

Femenias, Guillem, primary, Riera-Palou, Felip, additional, and Björnson, Emil, additional

Published

2023

27. Time- and Unit-Cell Splitting Comparison for the Autonomous Operation of Reconfigurable Intelligent Surfaces

Author

Ntontin, Konstantinos, primary, Björnson, Emil, additional, Boulogeorgos, Alexandros-Apostolos A., additional, Abdullah, Zaid, additional, Mesodiakaki, Agapi, additional, Abadal, Sergi, additional, and Chatzinotas, Symeon, additional

Published

2023

28. Ultra-Thin Flexible Uniplanar Antenna Based on SSPP for B5G Radio Stripe Network

Author

Sonagara, Abhishek Maganbhai, primary, Mishra, Mohit, additional, Kshetrimayum, Rakhesh Singh, additional, Björnson, Emil, additional, and Chen, Zhi Ning, additional

Published

2023

29. IEEE Signal Processing Society: Celebrating 75 Years of Remarkable Achievements (Part 2) [From the Guest Editors]

Author

Guido, Rodrigo Capobianco, primary, Adali, Tulay, additional, Björnson, Emil, additional, Blanc-Féraud, Laure, additional, Braga-Neto, Ulisses, additional, Ghoraani, Behnaz, additional, Jutten, Christian, additional, Van Der Veen, Alle-Jan, additional, Zhao, Hong Vicky, additional, and Zhu, Xiaoxing, additional

Published

2023

30. IEEE Signal Processing Society: Celebrating 75 Years of Remarkable Achievements [From the Guest Editors]

Author

Guido, Rodrigo Capobianco, primary, Adali, Tulay, additional, Björnson, Emil, additional, Blanc-Féraud, Laure, additional, Braga-Neto, Ulisses, additional, Ghoraani, Behnaz, additional, Jutten, Christian, additional, Van Der Veen, Alle-Jan, additional, Zhao, Hong Vicky, additional, and Zhu, Xiaoxing, additional

Published

2023

31. Twenty-Five Years of Signal Processing Advances for Multiantenna Communications: From theory to mainstream technology

Author

Björnson, Emil, primary, Eldar, Yonina C., additional, Larsson, Erik G., additional, Lozano, Angel, additional, and Poor, H. Vincent, additional

Published

2023

32. A New Channel Subspace Characterization for Channel Estimation in RIS-Aided Communications

Author

Haghshenas, Mehdi, Ramezani, Parisa, Magarini, Maurizio, Björnson, Emil, Haghshenas, Mehdi, Ramezani, Parisa, Magarini, Maurizio, and Björnson, Emil

Abstract

A reconfigurable intelligent surface (RIS) is a holographic MIMO surface composed of a large number of passive elements that can induce adjustable phase shifts to the impinging waves. By creating virtual line-of-sight (LOS) paths between the transmitter and the receiver, RIS can be a game changer for millimeter-wave (mmWave) communication systems that typically suffer from severe signal attenuation. Reaping the benefits of RIS, however, relies on the accuracy of the channel estimation, which is a challenging task due to the large number of RIS elements. Specifically, conventional channel estimators require a pilot overhead equal to the number of RIS elements, which is impractical. Herein, we propose a novel way to approximately represent the RIS channels in a lower-dimensional subspace and derive the basis vectors for the identified subspace. We use this channel structure to only send pilots in this subspace, thereby vastly saving on the pilot overhead. Numerical results demonstrate that when the RIS has an element spacing of a quarter of the wavelength, our method reduces the pilot overhead by 80% with retained or even improved performance., Part of ISBN 979-8-3503-3307-7QC 20240319

Published

2023

33. Energy-Efficient Cell-Free Massive MIMO Through Sparse Large-Scale Fading Processing

Author

Chen, Shuaifei, Zhang, Jiayi, Björnson, Emil, Demir, Ozlem Tugfe, Ai, Bo, Chen, Shuaifei, Zhang, Jiayi, Björnson, Emil, Demir, Ozlem Tugfe, and Ai, Bo

Abstract

Cell-free massive multiple-input multiple-output (CF mMIMO) systems serve the user equipments (UEs) by geographically distributed access points (APs) by means of joint transmission and reception. To limit the power consumption due to fronthaul signaling and processing, each UE should only be served by a subset of the APs, but it is hard to identify that subset. Previous works have tackled this combinatorial problem heuristically. In this paper, we propose a sparse distributed processing design for CF mMIMO, where the AP-UE association and long-term signal processing coefficients are jointly optimized. We formulate two sparsity-inducing mean-squared error (MSE) minimization problems and solve them by using efficient proximal approaches with block-coordinate descent. For the downlink, more specifically, we develop a virtually optimized large-scale fading precoding (V-LSFP) scheme using uplink-downlink duality. The numerical results show that the proposed sparse processing schemes work well in both uplink and downlink. In particular, they achieve almost the same spectral efficiency as if all APs would serve all UEs, while the energy efficiency is 2-4 times higher thanks to the reduced processing and signaling., QC 20240318

Published

2023

34. Fronthaul Quantization-Aware MU-MIMO Precoding for Sum Rate Maximization

Author

Khorsandmanesh, Yasaman, Björnson, Emil, Jaldén, Joakim, Khorsandmanesh, Yasaman, Björnson, Emil, and Jaldén, Joakim

Abstract

This paper considers a multi-user multiple-input multiple-output (MU-MIMO) system where the precoding matrix is selected in a baseband unit (BBU) and then sent over a digital fronthaul to the transmitting antenna array. The fronthaul has a limited bit resolution with a known quantization behavior. We formulate a new sum rate maximization problem where the precoding matrix elements must comply with the quantizer. We solve this non-convex mixed-integer problem to local optimality by a novel iterative algorithm inspired by the classical weighted minimum mean square error (WMMSE) approach. The precoding optimization subproblem becomes an integer least-squares problem, which we solve with a new algorithm using a sphere decoding (SD) approach. We show numerically that the proposed precoding technique vastly outperforms the baseline of optimizing an infinite-resolution precoder and then quantizing it. We also develop a heuristic quantization-aware precoding that outperforms the baseline while having comparable complexity., QC 20240110Part of ISBN 9781538674628

Published

2023

35. mmWave Coverage Extension Using Reconfigurable Intelligent Surfaces in Indoor Dense Spaces

Author

Li, Zhenyu, Topal, Ozan Alp, Demir, Ozlem Tugfe, Björnson, Emil, Cavdar, Cicek, Li, Zhenyu, Topal, Ozan Alp, Demir, Ozlem Tugfe, Björnson, Emil, and Cavdar, Cicek

Abstract

In this work, we consider the deployment of reconfigurable intelligent surfaces (RISs) to extend the coverage of a millimeter-wave (mmWave) network in indoor dense spaces. We first integrate RIS into ray-tracing simulations to realistically capture the propagation characteristics, then formulate a non-convex optimization problem that minimizes the number of RISs under rate constraints. We propose a feasible point pursuit and successive convex approximation-based algorithm, which solves the problem by jointly selecting the RIS locations, optimizing the RIS phase-shifts, and allocating time resources to user equipments (UEs). The numerical results demonstrate substantial coverage extension by using at least four RISs, and a data rate of 130 Mbit/s is guaranteed for UEs in the considered area of an airplane cabin., Part of ISBN 978-1-5386-7463-5QC 20231123

Published

2023

36. Optimal Joint Access Point Placement and Resource Allocation for Indoor mmWave Communications

Author

Topal, Ozan Alp, Björnson, Emil, Schupke, Dominic, Cavdar, Cicek, Topal, Ozan Alp, Björnson, Emil, Schupke, Dominic, and Cavdar, Cicek

Abstract

In this paper, we formulate and solve the optimization problem for joint access point placement and resource allocation for indoor mmWave communications with static users, with a particular focus on airplanes. The proposed scheme obtains the required number of access points (APs) and their locations, for a given data rate threshold and given radio resources such as bandwidth, antenna numbers, and AP co-operation. We first build an airplane cabin environment in a ray-tracing tool to realistically capture the propagation effects. Then, we cast optimal deployment problems considering the performance of different AP cooperation schemes, namely coordinated scheduling (CS), non-coherent joint transmission (NC-JT), and coherent joint transmission (C-JT). The results indicate that full cooperation among the APs with C-JT requires fewer APs, especially under high data rate requirements. Comparing the network deployments in the mmWave and sub-6GHz bands, we observe 9 times higher data rates in mmWave although more APs are required., Part of ISBN 978-1-5386-7462-8QC 20231030

Published

2023

37. Analytical Nonlinear Distortion Characterization for Frequency-Selective Massive MIMO Channels

Author

Salman, Murat Babek, Björnson, Emil, Güvensen, Gökhan Muzaffer, Çiloǧlu, Tolga, Salman, Murat Babek, Björnson, Emil, Güvensen, Gökhan Muzaffer, and Çiloǧlu, Tolga

Abstract

Nonlinear distortion stemming from low-cost power amplifiers may severely affect wireless communication performance through out-of-band (OOB) radiation and in-band distortion. The distortion is correlated between different transmit antennas in an antenna array, which results in a beamforming gain at the receiver side that grows with the number of antennas. In this paper, we investigate how the strength of the distortion is affected by the frequency selectivity of the channel. A closed-form expression for the received distortion power is derived as a function of the number of multipath components (MPCs) and the delay spread, which highlight their impact. The performed analysis, which is verified via numerical simulations, reveals that as the number of MPCs increases, distortion exhibits distinct characteristics for in-band and OOB frequencies. It is shown that the received in-band and OOB distortion power is inversely proportional to the number of MPCs, and it is reported that as the delay spread gets narrower, the in-band distortion power is beamformed towards the intended user, which yields higher received in-band distortion compared to the OOB distortion., QC 20240110Part of ISBN 978-1-5386-7462-8

Published

2023

38. Dual-Polarized Reconfigurable Intelligent Surface-Assisted Broad Beamforming

Author

Ramezani, Parisa, Girnyk, Maksym A., Björnson, Emil, Ramezani, Parisa, Girnyk, Maksym A., and Björnson, Emil

Abstract

A reconfigurable intelligent surface (RIS) consists of a large number of low-cost elements that can control the propagation environment seen from a transmitter by intelligently applying phase shifts to impinging signals before reflection. This letter studies an RIS-assisted communication system where a transmitter wants to transmit a common signal to many users residing in a wide angular area. To cover this sector uniformly, the RIS needs to radiate a broad beam with a spatially flat array factor, instead of a narrow beam as normally considered. To achieve this, we propose to use a dual-polarized RIS consisting of elements with orthogonal polarizations and show that the RIS can produce a broad beam if the phase shift configuration vectors in the two polarizations form a so-called Golay complementary sequence pair. By utilizing their properties, we also present a method for constructing configuration for large RISs from smaller ones, while preserving the broad radiation pattern of the smaller RIS. The numerical results corroborate the mathematical analyses and highlight the greatly improved coverage properties., QC 20231201

Published

2023

39. UL-DL Duality for Cell-free Networks under Per-AP Power and Information Constraints

Author

Miretti, Lorenzo, Cavalcante, Renato L. G., Björnson, Emil, Miretti, Lorenzo, Cavalcante, Renato L. G., and Björnson, Emil

Abstract

We derive a novel uplink-downlink duality principle for optimal joint precoding design under per-transmitter power and information constraints. The main application is to cell-free networks, where each access point (AP) must typically satisfy an individual power constraint, and form its transmit signal on the basis of possibly partial data and channel state information sharing. By measuring performance using the popular hardening inner bound on the ergodic capacity, we show that optimal joint precoders can be interpreted as optimal joint combiners on a dual uplink channel with properly designed transmit and noise powers, and that they can be obtained using a variation of the recently developed team minimum mean-square error method. We finally apply our results to the numerical evaluation of optimal centralized and local precoding in a typical user-centric cell-free network subject to per-AP power constraints., QC 20240312Part of ISBN 978-1-5386-7462-8

Published

2023

40. Optimized Precoding for MU-MIMO With Fronthaul Quantization

Author

Khorsandmanesh, Yasaman, Björnson, Emil, Jaldén, Joakim, Khorsandmanesh, Yasaman, Björnson, Emil, and Jaldén, Joakim

Abstract

One of the first widespread uses of multi-user multiple-input multiple-output (MU-MIMO) is in 5G networks, where each base station has an advanced antenna system (AAS) that is connected to the baseband unit (BBU) with a capacity-constrained fronthaul. In the AAS configuration, multiple passive antenna elements and radio units are integrated into a single box. This paper considers precoded downlink transmission over a single-cell MU-MIMO system. We study optimized linear precoding for AAS with a limited-capacity fronthaul, which requires the precoding matrix to be quantized. We propose a new precoding design that is aware of the fronthaul quantization and minimizes the mean-squared error at the receiver side. We compute the precoding matrix using a sphere decoding (SD) approach. We also propose a heuristic low-complexity approach to quantized precoding. This heuristic is computationally efficient enough for massive MIMO systems. The numerical results show that our proposed precoding significantly outperforms quantization-unaware precoding and other previous approaches in terms of the sum rate. The performance loss for our heuristic method compared to quantization-aware precoding is insignificant considering the complexity reduction, which makes the heuristic method feasible for real-time applications. We consider both perfect and imperfect channel state information (CSI)., QC 20240206

Published

2023

41. Energy Harvesting Maximization for Reconfigurable Intelligent Surfaces Using Amplitude Measurements

Author

Tavana, Morteza, Masoudi, Meysam, Björnson, Emil, Tavana, Morteza, Masoudi, Meysam, and Björnson, Emil

Abstract

Energy harvesting can enable a reconfigurable intelligent surface (RIS) to self-sustain its operations without relying on external power sources. In this paper, we consider the problem of energy harvesting for RISs in the absence of coordination with the ambient RF source. We propose a series of sequential phase-alignment algorithms that maximize the received power based on only power measurements. We prove the convergence of the proposed algorithm to the optimal value for the noiseless scenario. However, for the noisy scenario, we propose a linear least squares estimator. We prove that within the class of linear estimators, the optimal set of measurement phases are equally-spaced phases. To evaluate the performance of the proposed method, we introduce a random phase update algorithm as a benchmark. Our simulation results show that the proposed algorithms outperform the random phase update method in terms of achieved power after convergence while requiring fewer measurements per phase update. Using simulations, we show that in a noiseless scenario with a discrete set of possible phase shifts for the RIS elements, the proposed method is sub-optimal, achieving a higher value than the random algorithm but not exactly the maximum feasible value that we obtained by exhaustive search., QC 20240209

Published

2023

42. Another Twist to the Scalability in Cell-Free Massive MIMO Networks

Author

Femenias, Guillem, Riera-Palou, Felip, Björnson, Emil, Femenias, Guillem, Riera-Palou, Felip, and Björnson, Emil

Abstract

Cell-free massive multiple-input multiple-output (MIMO) networks, where a massive number of geographically distributed access points cooperate to jointly serve the users, have been proved to solve many of the interference related issues associated to cellular networks. One of the main challenges of cell-free massive MIMO networks, however, is to guarantee that the potential benefits this architecture entails can be achieved with signal processing computational complexities and fronthaul resource requirements that are scalable as the number of users goes to infinity. User-centric architectures have been proposed in the literature that potentially solve the scalability issues related to, first, the signal processing associated to channel estimation and massive MIMO combining/precoding, second, the power allocation algorithms and, third, the fronthaul signaling for data and channel state information sharing. One of the best centralized combiners/precoders that have been proposed in practice, however, which is termed as partial minimum mean square error (P-MMSE), does not allow obtaining expressions of its spectral efficiency in a scalable way except when using lower bounds based on the well-known use-and-then-forget (UatF) approach. These lower bounds, however, in addition to being rather inaccurate, are not suited for the design and analysis of non-linear combining/precoding schemes based on successive interference cancellation (SIC) when users are equipped with multiple antennas. In this paper, we propose novel linear and non-linear combining/precoding schemes, which we term improved P-MMSE (IP-MMSE), whose achievable spectral efficiency can be accurately analyzed in a scalable manner. The proposed IP-MMSE combiner/precoder achieves spectral efficiencies close to that provided by MMSE-based unscalable solutions, and outperforms to a great extent the P-MMSE-based counterparts., QC 20231222

Published

2023

43. Broad Beam Reflection for RIS-Assisted MIMO Systems with Planar Arrays

Author

Ramezani, Parisa, Gimyk, Maksym A., Björnson, Emil, Ramezani, Parisa, Gimyk, Maksym A., and Björnson, Emil

Abstract

While reconfigurable intelligent surface (RIS)-aided user-specific beamforming has been vastly investigated, the aspect of utilizing RISs for assisting cell-specific transmission has been largely unattended. Aiming to fill this gap, we study a downlink broadcasting scenario where a base station (BS) sends a cell-specific signal to all the users located in a wide angular area with the assistance of a dual-polarized RIS. We utilize the polarization degree of freedom offered by this type of RIS and design the phase configurations in the two polarizations in such a way that the RIS can radiate a broad beam, thereby uniformly covering all azimuth and elevation angles where the users might reside. Specifically, the per-polarization configuration matrices are designed in such a way that the total power-domain array factor becomes spatially flat over all observation angles implying that the RIS can preserve the broad radiation pattern of a single element while boosting its gain proportionally to its aperture size. We validate the mathematical analyses via numerical simulations., Part of ISBN 9798350325744QC 20240711

Published

2023

44. Amplitude-Based Sequential Optimization of Energy Harvesting with Reconfigurable Intelligent Surfaces

Author

Tavana, Morteza, Masoudi, Meysam, Björnson, Emil, Tavana, Morteza, Masoudi, Meysam, and Björnson, Emil

Abstract

Reconfigurable Intelligent Surfaces (RISs) have gained immense popularity in recent years because of their ability to improve wireless coverage and their flexibility to adapt to the changes in a wireless environment. These advantages are due to RISs' ability to control and manipulate radio frequency (RF) wave propagation. RISs may be deployed in inaccessible locations where it is difficult or expensive to connect to the power grid. Energy harvesting (EH) can enable the RIS to self-sustain its operations without relying on external power sources. In this paper, we consider the problem of energy harvesting for RISs in the absence of coordination with the ambient RF source. We consider both direct and indirect EH scenarios and show that the same mathematical model applies to them. We propose a sequential phase-alignment algorithm that maximizes the received power based on only power measurements. We prove the convergence of the proposed algorithm to the optimal value under specific circumstances. Our simulation results show that the proposed algorithm converges to the optimal solution in a few iterations and outperforms the random phase update method in terms of the number of required measurements., Part of ISBN 9798350325744QC 20240709

Published

2023

45. Parametric Near-Field Channel Estimation for Extremely Large Aperture Arrays

Author

Kosasih, Alva, Demir, Özlem Tugfe, Björnson, Emil, Kosasih, Alva, Demir, Özlem Tugfe, and Björnson, Emil

Abstract

Accurate channel estimation is critical to fully ex-ploit the beamforming gains when communicating with extremely large aperture arrays. The propagation distances between the user and receiver, which potentially has thousands of anten-nas/elements, are such that they are located in the radiative near-field region of each other when considering the Fraunhofer distance of the entire array. Therefore, it is imperative to consider near-field effects to achieve proper channel estimation. This paper proposes a parametric multi-user near-field channel estimation algorithm based on MUltiple SIgnal Classification (MUSIC) method to obtain the essential parameters describing the users' locations. We derive the estimated channel by incorporating the estimated parameters into the near-field channel model. Additionally, we implement a least-squares-based estimation corrector, resulting in a precise near-field channel estimation. Simulation results demonstrate that our proposed scheme outperforms classical least-squares and minimum mean-square error channel estimation methods in terms of normalized beamforming gain and normalized mean-square error., Part of ISBN 9798350325744QC 20240705

Published

2023

46. Efficient LOS Channel Estimation for RIS-Aided Communications Under Non-Stationary Mobility

Author

Haghshenas, Mehdi, Ramezani, Parisa, Björnson, Emil, Haghshenas, Mehdi, Ramezani, Parisa, and Björnson, Emil

Abstract

Reconfigurable intelligent surface (RIS) is a newly-emerged technology that, with its unique features, is considered to be a game changer for future wireless networks. Channel estimation is one of the most critical challenges for the realization of RIS-assisted communications. Non-parametric channel estimation techniques are inefficient due to the huge pilot dimensionality that stems from the large number of RIS elements. The challenge becomes more serious if we consider the mobility of the users where the channel needs to be re-estimated whenever the user moves to a new location. This paper develops a novel maximum likelihood estimator (MLE) for jointly estimating the line-of-sight (LOS) channel from the user to the RIS and the direct channel between the user and the base station. By smartly refining the RIS configuration during the channel estimation procedure, we show that the channels can be accurately estimated with only a few pilot transmissions-much fewer than the number of RIS elements. The proposed scheme is also shown to be capable of effectively tracking the channel when the user moves around in a continuous but non-stationary manner with varying LOS angles, Part of ISBN [9781538674628]QC 20240701

Published

2023

47. Impact of Pilot Contamination Between Operators With Interfering Reconfigurable Intelligent Surfaces

Author

Gurgunoglu, Doga, Björnson, Emil, Fodor, Gabor, Gurgunoglu, Doga, Björnson, Emil, and Fodor, Gabor

Abstract

In this paper, we study the impact of pilot contamination in a system where two operators serve their respective users with the assistance of two wide-band reconfigurable intelligent surfaces (RIS), each belonging to a single operator. We consider one active user per operator and they use disjoint narrow frequency bands. Although each RIS is dedicated to a single operator, both users' transmissions are reflected by both RISs. We show that this creates a new kind of pilot contamination effect when pilots are transmitted simultaneously. Since combating inter-operator pilot contamination in RIS-assisted networks would require long pilot signal sequences to maintain orthogonality among the users of different operators, we propose the orthogonal configurations of the RISs. Numerical results show that this approach completely eliminates pilot contamination, and significantly improves the performance in terms of channel estimation and equalization by removing the channel estimation bias., QC 20240415Part of ISBN 979-835033782-2

Published

2023

48. Far-field Training with Estimation for Cross-field Beam Alignment in Terahertz UM-MIMO Systems

Author

Chen, Yuhang, Han, Chong, Liu, Hao, Björnson, Emil, Chen, Yuhang, Han, Chong, Liu, Hao, and Björnson, Emil

Abstract

Terahertz (THz) ultra-massive multiple-input multiple-output (UM-MIMO) systems are promising in enabling next-generation wireless communications, offering high data rates with tens of GHz of continuous bandwidth and high spectral efficiency. In THz UM-MIMO systems, a new paradigm of cross-field communications is emerging, since THz transmission distances span from near-field to far-field. To achieve the benefits of THz UM-MIMO, precise beam alignment implemented through beam training or beam scanning is required. However, different from the traditional far-field alignment in the angle domain, the near-field angle and distance alignment should be considered in the cross-field. The additional distance domain searching brings higher training overhead and thus limits the system's performance. In this paper, a far-field training with estimation (FTE) framework for cross-field beam alignment is proposed. The far-field training enables the received signal-to-noise ratio (SNR) in both the far- and near-field for successful control signal reception. Moreover, a three-phase beam estimator (TPBE) is proposed for high-precision alignment. Extensive simulations demonstrate the effectiveness of the proposed methods. Specifically, the FTE possesses a near-optimal signal-to-noise ratio with only 0.5 dB deviation, with 3.3% training overhead and low complexity compared to near-field exhaustive search., QC 20240412Part of ISBN 979-8-3503-1090-0

Published

2023

49. UNIFIED LEARNING FOR ENERGY AND SPECTRAL EFFICIENT BEAMFORMING

Author

Kim, Junbeom, Björnson, Emil, Kim, Junbeom, and Björnson, Emil

Abstract

This work proposes a novel deep learning approach to tackle multi-task optimization problems in multi-user multi-antenna downlink systems. In practice, there is a trade-off between maximizing the weighted sum spectral efficiency (WSSE) and weighted sum energy efficiency (WSEE) in wireless systems. Traditional beamforming algorithms face limitations in jointly addressing multiple optimization tasks, as they heavily rely on task-specific processes aimed at maximizing specific metrics. As a result, the multiple computations to deal with the multi-task problems lead to poor computation and memory efficiency at the base station (BS), which is a challenging aspect to overcome. To address these issues, we present a novel multi-task learning approach that effectively achieves the desired trade-off while reducing the memory burden. We demonstrate the advantages of the proposed scheme that utilizes a single neural network over both existing model-based and data-driven algorithms., QC 20240403Part of ISBN 979-8-3503-4452-3

Published

2023

50. A NEW POLAR-DOMAIN DICTIONARY DESIGN FOR THE NEAR-FIELD REGION OF EXTREMELY LARGE APERTURE ARRAYS

Author

Demir, Ozlem Tugfe, Björnson, Emil, Demir, Ozlem Tugfe, and Björnson, Emil

Abstract

A grid of orthogonal beams with zero column coherence can be easily constructed to cover all prospective user equipments (UEs) in the far-field region of a multiple-antenna base station (BS). However, when the BS is equipped with an extremely large aperture array, the Fraunhofer distance is huge, causing the UEs to be located in the radiative near-field region. This calls for designing a grid of beams based on a near-field dictionary. In the previous work, a polardomain grid design was proposed to maintain control over the column coherence. A limitation of this approach is identified in this paper, and we propose an enhanced methodology for the design of a polar-domain dictionary specifically tailored for the near-field of an extremely large aperture uniform planar array. Through simulation results, it is demonstrated that the proposed dictionary, employing a non-uniform distance sampling approach, achieves lower column coherence than the benchmark and significantly improves the localization of UEs compared to uniform distance sampling., QC 20240403Part of ISSN 979-8-3503-4452-3

Published

2023