Building Decentralized Fog Computing-Based Smart Parking Systems: From Deterministic Propagation Modeling to Practical Deployment

Celaya-Echarri, Mikel; Froiz-Míguez, Iván; Azpilicueta, Leyre; Fraga‐Lamas, Paula; López-Iturri, Peio; Falcone, Francisco; Fernández‐Caramés, Tiago M.

doi:10.1109/access.2020.3004745

Cited by 20 publications

(8 citation statements)

References 53 publications

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“…The propagation parameters are calculated along the path of each ray, which interacts with all the elements within the scenario, creating radio propagation phenomena such as reflection, refraction, and diffraction. These characteristics, added to the implementation of the material properties of all the elements within the scenario (conductivity and permittivity) lead to an efficient and robust technique already employed and validated in many different environments, including large urban environments [30] [31].…”

Section: A 3d Ray Launching Techniquementioning

confidence: 99%

Bi2Bi Communication: Toward Encouragement of Sustainable Smart Mobility

et al. 2022

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Sustainable urban mobility refers to the sustainable transportation mode in terms of social, environmental, and climate impacts. Cycling has emerged as one of the most sustainable means of urban travel due to its flexibility, low costs, reduced carbon emissions, improved traffic, and mobility in cities. Vehicle-to-vehicle (V2V) communication is becoming a reality standard. Non-motorized vehicles, such as bikes, are expected to participate in V2V and Vehicle-To-Everything (V2X) networking alongside cars and trucks, although they have gotten significantly less attention. In this paper, we analyze and experimentally evaluate Bike-to-Bike (Bi2Bi) wireless communication in different urban scenarios, considering full topomorphological characteristics of urban environments by means of deterministic 3D Ray Launching hybrid simulations. Communication and data exchange between bikes relies on the IEEE 802.15.4 standard, and specifically, on ZigBee. We analyze Bi2Bi communication and cooperation towards sustainable smart mobility, following a holistic approach providing a tool based on the city platform to monitor and understand the impact of mobility at both city and citizen level and to provide accurate information on carbon footprint reduction, for multiple city/system stakeholders.

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Section: A 3d Ray Launching Techniquementioning

confidence: 99%

Bi2Bi Communication: Toward Encouragement of Sustainable Smart Mobility

et al. 2022

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“…With driver behavior analysis and parking traffic prediction, this system handles parking demands by allocating available parking lots with improved efficiency. The authors of [20] suggested a decentralized parking system that uses fog computing and IoT to provide parking services. The system validates real-world parking traffic with a characterized traffic using the 3D-Ray Launching (3D-RL) tool and provides parking services accordingly.…”

Section: Background Studymentioning

confidence: 99%

An IoT Based Intelligent Parking System for the Unutilized Parking Area With Real-Time Monitoring Using Mobile and Web Application

Kabir¹,

Mizan²,

Saha³

et al. 2021

AJCT

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The parking place number still remains insufficient despite the continuous growth in vehicle number. This study proposed a solution using modern technology to resolve these parking issues. The proposed solution is an automated parking management system that reduces parking scarcity by providing unused car parking places. This project has used IoT, mobile application, a web application to serve the following services, parking management, parking place availability monitorization, real-time invoice generation, payment system and, parking management. By proving this system, the hassle of people will be reduced as they are getting updates on nearby available parking spots. Alongside IoT, mobile application, web application other technologies such as GPS -GSM module, image processing method, and other technologies were integrated. The system offers both web and android app-based solutions for better customer experience and easy usage. Moreover, there is also an offline mode to use the system.

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“…The Internet of Things (IoT) empowers smart connectivity and advanced communication paradigms in wireless sensor networks (WSNs) to, among other things, enable well-performing intelligent transportation systems (ITSs), including SP systems, which are considered integral parts of innovative smart-city projects [1,2]. The IoT is a generic platform that is used to overcome the technological limitations of existing transportation systems, such as SP systems, traffic-congestion systems, and energy-consumption systems; thereby, IoT-enabled features, such as monitoring, controlling, and data analytics, can strengthen the performances of larger SP systems in metropolitan areas [3].…”

Section: Introductionmentioning

confidence: 99%

“…For example, the SP system can play an essential role in saving drivers time when searching for parking in urban areas on demand; this can be of great assistance to minimizing traffic congestion and saving energy (e.g., gasoline), which further leads to a reduction in air pollution. As a part of the SP system, the parking payment as per the occupation of the driver can easily be made, with some built-in payment methods online, which therefore saves the driver time (instead of waiting in a long row), without interrupting other drivers [1,4]. and ensure an end-to-end information stream (for example, the successful transactions between edge devices to fog to cloud to end users, and vice versa) [11,26].…”

Section: Introductionmentioning

confidence: 99%

“…However, building and managing such a crowded vehicular or transportation system (for example, a largescale IoT-enabled SP system) through a centric platform such as the cloud is not a longterm effective solution to address the limitations of computation, storage, and cybersecurity [21][22][23][24]. For that, the introduction of the emerging fog and blockchain technologies can be an inclusive solution to overcoming the challenges of IoT-cloud-centric platforms to build smart transportation and to manage its current and future demands (for example, SP systems) [1,21]. This study provides inspiration for building and managing future SP systems, and specifically for accommodating AVs searching for parking, both indoors and outdoors, in metropolitan areas.…”

Section: Introductionmentioning

confidence: 99%

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Enabling Fog–Blockchain Computing for Autonomous-Vehicle-Parking System: A Solution to Reinforce IoT–Cloud Platform for Future Smart Parking

Shahzad

Gherbi

Zhang

2022

Sensors

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With the advent of modern technologies, including the IoT and blockchain, smart-parking (SP) systems are becoming smarter and smarter. Similar to other automated systems, and particularly those that require automation or minimal interaction with humans, the SP system is heuristic in delivering performances, such as throughput in terms of latency, efficiency, privacy, and security, and it is considered a long-term cost-effective solution. This study looks ahead to future trends and developments in SP systems and presents an inclusive, long-term, effective, and well-performing smart autonomous vehicle parking (SAVP) system that explores and employs the emerging fog-computing and blockchain technologies as robust solutions to strengthen the existing collaborative IoT–cloud platform to build and manage SP systems for autonomous vehicles (AVs). In other words, the proposed SAVP system offers a smart-parking solution, both indoors and outdoors, and mainly for AVs looking for vacant parking, wherein the fog nodes act as a middleware layer that provides various parking operations closer to IoT-enabled edge devices. To address the challenges of privacy and security, a lightweight integrated blockchain and cryptography (LIBC) module is deployed, which is functional at each fog node, to authorize and grant access to the AVs in every phase of parking (e.g., from the parking entrance to the parking slot to the parking exit). A proof-of-concept implementation was conducted, wherein the overall computed results, such as the average response time, efficiency, privacy, and security, were examined as highly efficient to enable a proven SAVP system. This study also examined an innovative pace, with careful considerations to combatting the existing SP-system challenges and, therefore, to building and managing future scalable SP systems.

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Building Decentralized Fog Computing-Based Smart Parking Systems: From Deterministic Propagation Modeling to Practical Deployment

Cited by 20 publications

References 53 publications

Bi2Bi Communication: Toward Encouragement of Sustainable Smart Mobility

Bi2Bi Communication: Toward Encouragement of Sustainable Smart Mobility

An IoT Based Intelligent Parking System for the Unutilized Parking Area With Real-Time Monitoring Using Mobile and Web Application

Enabling Fog–Blockchain Computing for Autonomous-Vehicle-Parking System: A Solution to Reinforce IoT–Cloud Platform for Future Smart Parking

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