Aerial Vehicles Tracking Using Noncoherent Crowdsourced Wireless Networks

Sallouha, Hazem; Chiumento, Alessandro; Pollin, Sofie

doi:10.1109/tvt.2021.3103315

Cited by 11 publications

(7 citation statements)

References 35 publications

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“…The proposed system relies on the RSS of UAV's Wi-Fi beacons captured by a crowd of terrestrial receivers to conduct a maximum likelihood estimation of the target UAV position. In [138] a time difference of arrival (TDoA)-based multilateration localization method of UAVs using a non-coherent CWN is proposed. In order to achieve the time synchronization needed for TDoA, an autoregressive synchronization method in companion with a Kalman filter is employed.…”

Section: ) Uav-aided Data Collectionmentioning

confidence: 99%

Evolution of Non-Terrestrial Networks From 5G to 6G: A Survey

Azari

Solanki

Chatzinotas

et al. 2022

IEEE Commun. Surv. Tutorials

Self Cite

169

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Non-terrestrial networks (NTNs) traditionally have certain limited applications. However, the recent technological advancements and manufacturing cost reduction opened up myriad applications of NTNs for 5G and beyond networks, especially when integrated into terrestrial networks (TNs). This article comprehensively surveys the evolution of NTNs highlighting their relevance to 5G networks and essentially, how it will play a pivotal role in the development of 6G ecosystem. We discuss important features of NTNs integration into TNs and the synergies by delving into the new range of services and use cases, various architectures, technological enablers, and higher layer aspects pertinent to NTNs integration. Moreover, we review the corresponding challenges arising from the technical peculiarities and the new approaches being adopted to develop efficient integrated ground-air-space (GAS) networks. Our survey further includes the major progress and outcomes from academic research as well as industrial efforts representing the main industrial trends, field trials, and prototyping towards the 6G networks.

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Section: ) Uav-aided Data Collectionmentioning

confidence: 99%

Evolution of Non-Terrestrial Networks From 5G to 6G: A Survey

Azari

Solanki

Chatzinotas

et al. 2022

IEEE Commun. Surv. Tutorials

Self Cite

169

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“…One more research in mixed traffic used ADS-B data to analyze the effects of lack in clock synchronization to the ATM. It provided solutions based on the availability of several trusted sensors in a large, uncoordinated network of UAVs [29]. In this context, the UAV functions as a relay airborne for ADS-B of manned flights.…”

Section: Ads-b Researchmentioning

confidence: 99%

UAS Traffic Management Communications: The Legacy of ADS-B, New Establishment of Remote ID, or Leverage of ADS-B-Like Systems?

Ruseno

Lin

Chang

2022

Drones

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Unmanned aerial system (UAS) traffic management (UTM) requires each UAS to communicate with each other and to other stakeholders involved in the operation. In practice, there are two types of wireless communication systems established in the UAS community: automatic dependent surveillance broadcast (ADS-B) and remote identification (Remote ID). In between these two systems, there is ADS-B-like communication which leverages using other types of communications available in the market for the purpose of UTM. This review aims to provide an insight into those three systems, based on the published standard documents and latest research development. It also suggests how to construct a feasible communication architecture. The integrative approach is used in this literature review. The review categorization includes definition, data format, technology used, and research applications, and any remaining issues are discussed. The similarities and differences of each system are elaborated, covering practical findings. In addition, the SWOT analysis is conducted based on the findings. Lastly, multi-channel communication for UTM is proposed as a feasible solution in the UTM operation.

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“…This trend can be seen in most recent processing paradigms, such as edge-computing [1], and federated learning [2] as well as networking paradigms, such as cell-free [3], and crowdsourced networks [4]. In order to realize the full potential of these paradigms, accurate network synchronization is needed as a key enabler for essential services such as coherent transmission [5], cooperative decoding [6], and localization [7]. While centralized networks can achieve high-precision synchronization via wired-based infrastructure or over-the-air (OTA) with acceptable overhead, distributed networks may not have wiredbased infrastructure due to cost and geographical constraints [7], and existing OTA synchronization solutions are unscalable for distributed networks due to the excessive overhead needed to synchronize significantly more devices when compared to centralized networks [4]- [8].…”

Section: Introductionmentioning

confidence: 99%

“…The model of digital clocks in wireless devices can be represented by a time-series process, i.e., discrete stochastic process [11]. An accurate clock model is a key enabler for clock drift prediction, which promises a reduced synchronization overhead by relying on the clock model to compensate for clock drifts, minimizing the frequency at which synchronization pilots are needed [6,7]. Recent state-of-the-art works addressed the digital clock modeling by using autoregressive models along with a Kalman filter [11] or by exploiting long short-term memory (LSTM)-based recurrent neural networks (RNNs) [7].…”

Section: Introductionmentioning

confidence: 99%

Enabling Low-Overhead Over-the-Air Synchronization Using Online Learning

Verbruggen,

Sallouha,

Pollin

2023

ICC 2023 - IEEE International Conference on Communications

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Accurate network synchronization is a key enabler for services such as coherent transmission, cooperative decoding, and localization in distributed and cell-free networks. Unlike centralized networks, where synchronization is generally needed between a user and a base station, synchronization in distributed networks needs to be maintained between several cooperative devices, which is an inherently challenging task due to hardware imperfections and environmental influences on the clock, such as temperature. As a result, distributed networks have to be frequently synchronized, introducing a significant synchronization overhead. In this paper, we propose an online-LSTM-based model for clock skew and drift compensation, to elongate the period at which synchronization signals are needed, decreasing the synchronization overhead. We conducted comprehensive experimental results to assess the performance of the proposed model. Our measurement-based results show that the proposed model reduces the need for re-synchronization between devices by an order of magnitude, keeping devices synchronized with a precision of at least 10 microseconds with a probability 90%.

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Aerial Vehicles Tracking Using Noncoherent Crowdsourced Wireless Networks

Cited by 11 publications

References 35 publications

Evolution of Non-Terrestrial Networks From 5G to 6G: A Survey

Evolution of Non-Terrestrial Networks From 5G to 6G: A Survey

UAS Traffic Management Communications: The Legacy of ADS-B, New Establishment of Remote ID, or Leverage of ADS-B-Like Systems?

Enabling Low-Overhead Over-the-Air Synchronization Using Online Learning

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