Toward 5G Edge Computing for Enabling Autonomous Aerial Vehicles

Damigos, Gerasimos; Lindgren, Tore; Nikolakopoulos, George

doi:10.1109/access.2023.3235067

Cited by 15 publications

(5 citation statements)

References 29 publications

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“…Harilaos et al [114] addressed the characteristics of UAVs such as low power consumption and small load, offloaded the UAV flight control system (FCS) to a computing device at the edge of the network, and utilized 5G communication technology to achieve real-time transmission of UAV control commands and flight data. Gerasimos et al [115] also hosted the UAV FCS on an edge server and used 5G communication technology to transmit UAV flight data and control commands, and carefully evaluated the performance. Ashwin et al [116] utilized 5G communication technology to assist UAVs (swarms of UAVs) to communicate, thereby speeding up the delivery process of vaccine delivery using UAVs.…”

Section: A Communication Protocolmentioning

confidence: 99%

A Survey on UAV Applications in Smart City Management: Challenges, Advances, and Opportunities

Xu,

Wang,

Han

et al. 2023

IEEE J. Sel. Top. Appl. Earth Observations Remote Sensing

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Smart management of urban space is an important way to achieve the goal of sustainable urban development. Unmanned aerial vehicles (UAVs) have been widely used in urban space management work and have greatly improved the level of it. UAV technology assisting urban space management involves many technical details and has generated a number of problems. Therefore, a systematic review of the applications of UAVs in urban spatial management work is very necessary and can provide a comprehensive reference for relevant researchers. This is conducive to the generation of more new insights, methods, and applications. However, according to our research, there is a lack of relevant systematic investigation. We screened and researched a large number of relevant literatures (about 230) with the help of search tools such as Web of Science and IEEE Explore, and combined with our own working experience to review and summarize the field in an all-round way. Taking the definition, needs, and challenges of urban spatial management as an entry point, this paper systematically summarizes the task flow, working paradigm, technical system, and application direction of UAV-assisted urban spatial management. It also takes our recently developed UAV urban management system as an example to provide an introduction on how to integrate advanced technologies such as UAV and artificial intelligence. Finally, this paper summarizes several concluding findings and proposes several future research directions. The research in this paper shows that UAV technology has already played a great role in urban spatial management work, but it is still far from realizing automation and intelligence, and it needs to continue to make efforts in terms of methods, systems, applications, and policies. In order to achieve these goals, UAV technology can be further integrated with advanced technologies such as deep learning, more types of UAV industry applications can be carried out, more functional UAS can be developed, and better management policies can be formulated.

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Section: A Communication Protocolmentioning

confidence: 99%

A Survey on UAV Applications in Smart City Management: Challenges, Advances, and Opportunities

Xu,

Wang,

Han

et al. 2023

IEEE J. Sel. Top. Appl. Earth Observations Remote Sensing

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“…The authors of [21] further developed this concept, introducing deep learning into IoT within edge computing to bolster network performance, suggesting the integration of additional layers into edge servers as a strategy for minimizing network traffic. In [22], a novel edge-assisted solution was proposed to augment the cognition and self-awareness of an IoT system's sensing, processing, and configuration.The authors of [23] investigated offloading time-critical control operations for a UAV to external computational resources using 5G and edge computing. Furthermore, ref.…”

Section: Edge Computing For Iotmentioning

confidence: 99%

Edge-Computing-Enabled Low-Latency Communication for a Wireless Networked Control System

Mtowe,

Kim

2023

Electronics

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This study proposes a novel strategy for enhancing low-latency control performance in Wireless Networked Control Systems (WNCSs) through the integration of edge computing. Traditional networked control systems require the receipt of raw data from remote sensors to enable the controller to generate an appropriate control command, a process that can result in substantial periodic communication traffic and consequent performance degradation in some applications. To counteract this, we suggest the use of edge computing to preprocess the raw data, extract the essential features, and subsequently transmit them. Additionally, we introduce an adaptive scheme designed to curtail frequent data traffic by adaptively modifying periodic data transmission based on necessity. This scheme is achieved by refraining from data transmission when a comparative analysis of the previously transmitted and newly generated data shows no significant change. The effectiveness of our proposed strategy is empirically validated through experiments conducted on a remote control system testbed using a mobile robot that navigates the road by utilizing camera information. Through leveraging edge computing, only 3.42% of the raw data was transmitted. Our adaptive scheme reduced the transmission frequency by 20%, while maintaining an acceptable control performance. Moreover, we conducted a comparative analysis between our proposed solution and the state-of-the-art communication framework, WebRTC technology. The results demonstrate that our method effectively reduces the latency by 58.16% compared to utilizing the WebRTC alone in a 5G environment. The experimental results confirm that our proposed strategy significantly improves the latency performance of a WNCS.

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“…Para garantizar la correcta ejecución de la tarea se debe tener un retardo máximo de 20 ms. El uso de TSN puede dar, en una red con mucho tráfico de datos, prioridad a las comunicaciones sensibles al tiempo frente a otras comunicaciones que no lo son, y, por lo tanto, lograr el requisito de latencia máxima requerido en comparación con una solución sin TSN. Damigos et al (2023) comparan el rendimiento de la computación en la frontera (5G), la computación en la nube (4G y 5G) y la computación a bordo, para el control de vehículos aéreos no tripulados. La solución de computación en la frontera 5G logra una latencia promedio entre 20 y 30 ms, que es significativamente más baja que las soluciones de computación en la nube (más de 100 ms en promedio).…”

Section: Trabajos Previosunclassified

Computación frontera: influencia de latencias en la precisión de robots

Urbaniak,

Rosell,

Suárez

et al. 2023

XLIV Jornadas De Automática: Libro De Actas: Universidad De Zaragoza, Escuela De Ingeniería Y Arquitectura, 6, 7 Y 8 De Septiem

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La computación en la frontera (edge computing) permite acceder a grandes recursos computacionales y a redes de computadores, facilitando que pequeños dispositivos con recursos limitados realicen cálculos complejos descargándolos en computadores potentes de la red, y permite que la latencia en la comunicación se pueda reducir en comparación con la computación en la nube (cloud computing). Los robots móviles autónomos podrían beneficiarse enormemente de computación en la frontera, ya que en general su energía y recursos computacionales son limitados, pero su uso les permitiría realizar tareas computacionalmente complejas y que requieran adaptaciones rápidas a un entorno cambiante. En este trabajo se realiza una comparación del impacto de las tecnologías de comunicación más destacadas usando como tarea de ensayo, en simulación con Gazebo y ROS2, la corrección de la orientación de un cubo al ser empujado por un robot manipulador UR5e equipado con una pinza de dedos paralelos Robotiq 2F-85. Los resultados muestran un mejor rendimiento de 5G Ultra Reliable Low-Latency Communication (URLLC) sobre las comunicaciones 5G y 4G privadas, reduciendo la media del error de orientación en un 36% y 55 %, respectivamente, tras haber realizado 50 acciones de corrección de la orientación con cada tecnología.

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Toward 5G Edge Computing for Enabling Autonomous Aerial Vehicles

Cited by 15 publications

References 29 publications

A Survey on UAV Applications in Smart City Management: Challenges, Advances, and Opportunities

A Survey on UAV Applications in Smart City Management: Challenges, Advances, and Opportunities

Edge-Computing-Enabled Low-Latency Communication for a Wireless Networked Control System

Computación frontera: influencia de latencias en la precisión de robots

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