Configuring a Trusted Cloud Service Model for Smart City Exploration Using Hybrid Intelligence

Sarkar, Manash; Banerjee, Soumya; Badr, Youakim; Sangaiah, Arun Kumar

doi:10.4018/978-1-5225-5634-3.ch020

Cited by 8 publications

(9 citation statements)

References 27 publications

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“…We consider a network of fog node carrier centers consisting of N UEs, a WiFi AP type and a remote node [20]. Make the UE set N. Each UE is connected to the fog node through a wireless link, and the fog node and the cloud center are connected by a high-speed fiber.…”

Section: System Modeling and Problem Modelingmentioning

confidence: 99%

Retracted: Cloud Network and Mathematical Model Calculation Scheme for Dynamic Big Data

Chen

Qiu

2020

IEEE Access

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Cloud network oriented to dynamics big data is a popular way of big data operation at present. It is a big data that can be applied to human behavior under dynamics. Time-based features include communication, network access and migration activities combined with unique physiological characteristics to complete big data. This paper aims to study a new cloud hybrid network architecture based on edge computing. This article uses this architecture to tectonic fog calculation layer between cloud servers and devices using edge devices such as communications and networks. After analysis, the obtained results are actively cached on the fog computing device and compared with the data of the telecommunication network detection terminal on the fog device. To consider the final result. The experimental data show that the distributed computing scheme can achieve the goal of minimizing the task processing delay. The experimental results show that the cloud network of the dynamic big data can meet the requirements of the contemporary big data completely, and the utilization ratio of the big data can reach 90%, and the calculation scheme of the mathematical model can run completely.

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Section: System Modeling and Problem Modelingmentioning

confidence: 99%

Retracted: Cloud Network and Mathematical Model Calculation Scheme for Dynamic Big Data

Chen

Qiu

2020

IEEE Access

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“…In addition, other renewable energy technologies that have to contribute more to this mission are waste-to-energy. The solid waste produced can be converted into energy and other bio-products that will make these smart cities self-sufficient in their energy and bio-fertilizers requirements and also remove zero waste from these homes [10,11].…”

Section: Necessity Of the Solar Energy For Sustainable Development Of Smart Citymentioning

confidence: 99%

Solar Energy for Sustainable Development of a Smart City

Telang¹,

Chel

Nafdey³

et al. 2020

Studies in Systems, Decision and Control

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The Government of India has announced a new plan to build a mega solar project for meeting the increasing growth in energy. It is hoped to achieve renewable energy capacity of 175 GW by 2021. Small sized solar parks can be integral as a component of Smart Cities for being able to fulfil any additional requirements. Apart from rooftop solar, the solar energy can be utilized in other forms like solar pumps, solar street lighting, solar traffic signals, solar water heaters, solar concentrators based domestic cooking. There has been unparalleled transformation of living from rural to majorly urban living in India over the last two decades. The smart cities have significant developments planned within the infrastructure services and smart solutions in various aspects like toll collection, parking, traffic management etc. The power sector assures solar and smart metering electric power satisfying at least 10% of power required by the Indian smart cities.

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“…The principal objective of cloud service organizations is to convey better administrations with affirmation of trust about customers' data. Cloud's clients repetitively confront distinctive security challenges about the utilization of sharable assets 24,25 . Athanasopoulos and Uzunoglul 26 designed a conformal antenna (a cylindrical phased array) of 10 GHz, which produces a steerable main lobe.…”

Section: Related Workmentioning

confidence: 99%

“…Cloud's clients repetitively confront distinctive security challenges about the utilization of sharable assets. 24,25 Athanasopoulos and Uzunoglul 26 designed a conformal antenna (a cylindrical phased array) of 10 GHz, which produces a steerable main lobe. That also provides nulls in predefined direction, and the side lobe can be controlled by a beam-forming procedure.…”

Section: Related Workmentioning

confidence: 99%

Smart antenna design for high‐speed moving vehicles with minimum return loss

Sarkar

Singh

Gupta

et al. 2020

Int J Communication

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Summary The Internet of Things (IoT) is a connection amongst people and applications to another dimension of machine‐to‐machine communication. IoT scenario is unequivocally related with the development of the advancement of wireless sensor systems (WSNs) and radio‐frequency identification (RFID) frameworks. Owing to the technological advances around the world, energy demand is increasing exponentially. Energy proficiency has turned out to be one of the real worries in the present life that essentially influence every single human action. In communication system, return loss is a major issue for transmission process. Owing to return loss, a huge amount of power consumption occurs. This phenomenon is contemporary with transmission process, and it will initiate a serious problem for high‐speed moving substance like aircraft, rockets, and spaceship. To overcome this problem, a four‐element cylindrical antenna (conformal) array with better axial radiation is proposed. The four U‐shaped slots are uniformly wrapped around on a cylindrical surface, which produces tilted radiation. To enhance the axial radiation, four conformal elements are reefed by a one‐ to four‐microstrip feed network. The proposed conformal design has a bandwidth of 200 MHz (narrow bandwidth) at the center frequency of 3.9 GHz, covering the range of 3 to 3.9 GHz, with the gain of 4.9 dBic, and can be suitable for unmanned aerial vehicles (UAV), wireless avionics intra‐communication (WAIC), and so forth. The proposed design is low profile and can be used for high‐speed avionic applications. Finally, machine learning technique is explored to design a model for a smart antenna with optimistic parameters to reduce return loss and enhance the transmission rate.

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Configuring a Trusted Cloud Service Model for Smart City Exploration Using Hybrid Intelligence

Cited by 8 publications

References 27 publications

Retracted: Cloud Network and Mathematical Model Calculation Scheme for Dynamic Big Data

Retracted: Cloud Network and Mathematical Model Calculation Scheme for Dynamic Big Data

Solar Energy for Sustainable Development of a Smart City

Smart antenna design for high‐speed moving vehicles with minimum return loss

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