Emerging IoT Applications in Sustainable Smart Cities for COVID-19: Network Security and Data Preservation Challenges with Future Directions

Several Internet of Things (IoT) applications are booming which rely on advanced artificial intelligence (AI) and, in particular, machine learning (ML) algorithms to assist the users and make decisions on their behalf in a large variety of contexts, such as smart homes, smart cities, smart factories. Although the traditional approach is to deploy such compute-intensive algorithms into the centralized cloud, the recent proliferation of low-cost, AI-powered microcontrollers and consumer devices paves the way for having the intelligence pervasively spread along the cloud-to-things continuum. The take off of such a promising vision may be hurdled by the resource constraints of IoT devices and by the heterogeneity of (mostly proprietary) AI-embedded software and hardware platforms. In this paper, we propose a solution for the AI distributed deployment at the deep edge, which lays its foundation in the IoT virtualization concept. We design a virtualization layer hosted at the network edge that is in charge of the semantic description of AI-embedded IoT devices, and, hence, it can expose as well as augment their cognitive capabilities in order to feed intelligent IoT applications. The proposal has been mainly devised with the twofold aim of (i) relieving the pressure on constrained devices that are solicited by multiple parties interested in accessing their generated data and inference, and (ii) and targeting interoperability among AI-powered platforms. A Proof-of-Concept (PoC) is provided to showcase the viability and advantages of the proposed solution.

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Implementation analysis of IoT-based offloading frameworks on cloud/edge computing for sensor generated big data

Complex & Intelligent Systems ◽

10.1007/s40747-021-00434-6 ◽

2021 ◽

Author(s):

Karan Bajaj ◽

Bhisham Sharma ◽

Raman Singh

Keyword(s):

High Speed ◽

Smart Cities ◽

Fog Computing ◽

Edge Computing ◽

Computation Offloading ◽

Performance Parameters ◽

Iot Applications ◽

Time Sensitivity ◽

Implementation Analysis ◽

Increasing Demand

AbstractThe Internet of Things (IoT) applications and services are increasingly becoming a part of daily life; from smart homes to smart cities, industry, agriculture, it is penetrating practically in every domain. Data collected over the IoT applications, mostly through the sensors connected over the devices, and with the increasing demand, it is not possible to process all the data on the devices itself. The data collected by the device sensors are in vast amount and require high-speed computation and processing, which demand advanced resources. Various applications and services that are crucial require meeting multiple performance parameters like time-sensitivity and energy efficiency, computation offloading framework comes into play to meet these performance parameters and extreme computation requirements. Computation or data offloading tasks to nearby devices or the fog or cloud structure can aid in achieving the resource requirements of IoT applications. In this paper, the role of context or situation to perform the offloading is studied and drawn to a conclusion, that to meet the performance requirements of IoT enabled services, context-based offloading can play a crucial role. Some of the existing frameworks EMCO, MobiCOP-IoT, Autonomic Management Framework, CSOS, Fog Computing Framework, based on their novelty and optimum performance are taken for implementation analysis and compared with the MAUI, AnyRun Computing (ARC), AutoScaler, Edge computing and Context-Sensitive Model for Offloading System (CoSMOS) frameworks. Based on the study of drawn results and limitations of the existing frameworks, future directions under offloading scenarios are discussed.

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A taxonomy of energy optimization techniques for smart cities: Architecture and future directions

Expert Systems ◽

10.1111/exsy.12703 ◽

2021 ◽

Author(s):

Sudeep Tanwar ◽

Aarti Popat ◽

Pronaya Bhattacharya ◽

Rajesh Gupta ◽

Neeraj Kumar

Keyword(s):

Smart Cities ◽

Energy Optimization ◽

Optimization Techniques ◽

Future Directions

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Role of AI and Big Data Analytics in UAV‐Enabled IoT Applications for Smart Cities

Unmanned Aerial Vehicles for Internet of Things (IoT) ◽

10.1002/9781119769170.ch11 ◽

2021 ◽

pp. 193-205

Author(s):

Madhuri S. Wakode

Keyword(s):

Big Data ◽

Data Analytics ◽

Smart Cities ◽

Big Data Analytics ◽

Iot Applications

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Design and Analysis of a RFID Reader Microstrip Array antenna for IoT Applications in Smart Cities

International Journal of Web-Based Learning and Teaching Technologies ◽

10.4018/ijwltt.20220901oa03 ◽

2022 ◽

Vol 17 (5) ◽

pp. 0-0

Keyword(s):

Smart Cities ◽

Array Antenna ◽

The Internet ◽

Substrate Thickness ◽

Iot Applications ◽

Rfid Reader ◽

Array Antennas ◽

Microstrip Array ◽

The Internet Of Things ◽

Microstrip Array Antenna

This paper presents the design of 2*1 and 4*1 RFID reader microstrip array antenna at 2.4GHz for the Internet of things (IoT) networks which are Zigbee, Bluetooth and WIFI. The proposed antenna is composed of identical circular shapes radiating patches printed in FR4 substrate. The dielectric constant εr and substrate thickness h are 4.4 and 1.6mm, respectively. The 2*1 and 4*1 array antennas present a gain improvement of 27.3% and 61.9%, respectively. The single,2*1 and 4*1 array antennas were performed with CADFEKO.

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Recent Progress in the Energy Harvesting Technology—From Self-Powered Sensors to Self-Sustained IoT, and New Applications

Nanomaterials ◽

10.3390/nano11112975 ◽

2021 ◽

Vol 11 (11) ◽

pp. 2975

Author(s):

Long Liu ◽

Xinge Guo ◽

Weixin Liu ◽

Chengkuo Lee

Keyword(s):

Energy Harvesting ◽

Gas Sensing ◽

Smart Cities ◽

Scale Up ◽

Smart Homes ◽

Energy Harvesters ◽

Iot Applications ◽

Fast Development ◽

Self Powered ◽

New Applications

With the fast development of energy harvesting technology, micro-nano or scale-up energy harvesters have been proposed to allow sensors or internet of things (IoT) applications with self-powered or self-sustained capabilities. Facilitation within smart homes, manipulators in industries and monitoring systems in natural settings are all moving toward intellectually adaptable and energy-saving advances by converting distributed energies across diverse situations. The updated developments of major applications powered by improved energy harvesters are highlighted in this review. To begin, we study the evolution of energy harvesting technologies from fundamentals to various materials. Secondly, self-powered sensors and self-sustained IoT applications are discussed regarding current strategies for energy harvesting and sensing. Third, subdivided classifications investigate typical and new applications for smart homes, gas sensing, human monitoring, robotics, transportation, blue energy, aircraft, and aerospace. Lastly, the prospects of smart cities in the 5G era are discussed and summarized, along with research and application directions that have emerged.

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A Long-range Context-aware Platform Design For Rural Monitoring With IoT In Precision Agriculture

International Journal of Computers Communications & Control ◽

10.15837/ijccc.2020.2.3821 ◽

2020 ◽

Vol 15 (2) ◽

Cited By ~ 1

Author(s):

Deniz TAŞKIN ◽

Selçuk YAZAR

Keyword(s):

Long Range ◽

Precision Agriculture ◽

Rural Areas ◽

Smart Cities ◽

Soil Surface ◽

Area Network ◽

Context Aware ◽

Wide Area Network ◽

Performance Measurements ◽

Iot Applications

The Internet of Things (IoT) applications has been developing greatly in recent years to solve communication problems, especially in rural areas. Within the IoT, the context-awareness paradigm, especially in precision agricultural practices, has come to a state of the planning of production time. As smart cities approach, the smart environment approach also increases its place in IoT applications and has dominated research in recent years in literature. In this study, soil and environmental information were collected in 17 km diameter in rural area with developed Long Range (LoRa) based context-aware platform. With the developed sensor and actuator control unit, soil moisture at 5 cm and 30 cm depth and soil surface temperature information were collected and the communication performance was investigated. During the study, the performance measurements of the developed Serial Peripheral Interface (SPI) enabled Long Range Wide Area Network (LoRaWAN) gateway were also performed.

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Evaluation of business models of urban IoT-applications for a medium sized city

Central and Eastern European eDem and eGov Days ◽

10.24989/ocg.338.31 ◽

2020 ◽

Vol 338 ◽

pp. 393-403

Author(s):

Ferdinand Fischer ◽

Birgit Schenk

Keyword(s):

Best Practices ◽

Business Models ◽

Smart Cities ◽

Research Question ◽

The Public ◽

Iot Applications ◽

Evaluation Scheme ◽

Number Of Factors ◽

German City ◽

The Internet Of Things

Digitalization of the public sector is being driven by a number of factors. In particular, the concept of "Smart Cities" has become an important driver of this development. This relies heavily on an intelligent infrastructure including the Internet of Things (IoT). But does it make sense for small and medium-sized municipalities to develop this? Is it justified to invest in IoT? (How) can a mediumsized city benefit from it? This paper presents the application of an evaluation scheme for business models of urban IoT applications to answer these questions. The research question focuses on how best practices of urban IoT applications in general and in particular can be evaluated. In order to establish a concrete practical reference we evaluated ten chosen IoT applications for the German city of Herrenberg.

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IoT Technology Applications-Based Smart Cities: Research Analysis

Electronics ◽

10.3390/electronics9081246 ◽

2020 ◽

Vol 9 (8) ◽

pp. 1246 ◽

Cited By ~ 4

Author(s):

Mariana-Daniela González-Zamar ◽

Emilio Abad-Segura ◽

Esteban Vázquez-Cano ◽

Eloy López-Meneses

Keyword(s):

Smart Cities ◽

Scientific Activity ◽

Urban Environments ◽

Scientific Production ◽

Future Research ◽

Iot Applications ◽

Technology Applications ◽

Future Research Directions ◽

Available Information ◽

Electronic Sensors

The development of technologies enables the application of the Internet of Things (IoT) in urban environments, creating smart cities. Hence, the optimal management of data generated in the interconnection of electronic sensors in real time improves the quality of life. The objective of this study is to analyze global research on smart cities based on IoT technology applications. For this, bibliometric techniques were applied to 1232 documents on this topic, corresponding to the period 2011–2019, to obtain findings on scientific activity and the main thematic areas. Scientific production has increased annually, so that the last triennium has accumulated 83.23% of the publications. The most outstanding thematic areas were Computer Science and Engineering. Seven lines have been identified in the development of research on smart cities based on IoT applications. In addition, the study has detected seven new future research directions. The growing trend at the global level of scientific production shows the interest in developing aspects of smart cities based on IoT applications. This study contributes to the academic, scientific, and institutional discussion to improve decision making based on the available information.

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A Survey of Context-Aware Messaging-Addressing for Sustainable Internet of Things (IoT)

Sustainability ◽

10.3390/su12104105 ◽

2020 ◽

Vol 12 (10) ◽

pp. 4105

Author(s):

Alaa Omran Almagrabi ◽

Yasser D. Al-Otaibi

Keyword(s):

Internet Of Things ◽

Smart Cities ◽

Contextual Information ◽

Spatial Models ◽

Context Aware ◽

Engineering Technology ◽

Smart Transportation ◽

Context Aware Computing ◽

Iot Applications ◽

Smart Healthcare

Nowadays, communication engineering technology is merging with the Internet of Things (IoT), which consists of numerous connected devices (referred to as things) around the world. Many researchers have shown significant growth of sensor deployments for multiple smart engineering technologies, such as smart-healthcare, smart-industries, smart-cities, and smart-transportation, etc. In such intelligent engineering technologies, sensors continuously generate a bunch of messages in the network. To enhance the value of the data in the messages, we must know the actuality of the data embedded inside the messages. For this purpose, the contextual information of the data creates a vital challenge. Recently, context-aware computing has emerged to be fruitful in dealing with sensor information. In the ubiquitous computing domain, location is commonly considered one of the most essential sources of context. However, whenever users or applications are concerned with objects, and their site or spatial relationships, location models or spatial models are necessary to form a model of the environment. This paper investigates the area of context-aware messaging and addressing services in diverse IoT applications. The paper examines the notion of context and the use of context within the data exchanged by the sensors in an IoT application for messaging and addressing purposes. Based on the importance and need for context of the information, we identify three critical categories of new IoT applications for context-aware messaging and addressing services: emergency applications, applications for guiding and reminding, and social networking applications. For this purpose, a representative range of systems is reviewed according to the application type, the technology being used, their architecture, the context information, and the services they provide. This survey assists the work of defining an approach for context-aware messaging services domain by discovering the area of context-aware messaging.

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