Long range technology for internet of things: review, challenges, and future directions Mahmood A. Al-Shareeda 1, Abeer Abdullah Alsadhan 2, Hamzah H. Qasim 1,3, Selvakumar Manickam 4
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This paper presents an extensive survey of different battery technologies, accompanied by an assessment of their applicability in different IoT applications.
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The Internet of Autonomous Things (IoAT), also known as Autonomous Things (AuT), is a relatively new concept for technological advancements that enable autonomous devices to connect and share information without human intervention. IoAT includes robotics, autonomous vehicles, drones, and smart home devices.Recent progress in deep learning and
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Since the debut of the first motor vehicle by Karl Benz in 1886, the automotive industry is experiencing at least one significant milestone every decade .Perhaps, the breakthrough of the last decade is the debut of 4 G Wi-Fi hotspots and Tesla autopilot, both in 2014, which is making the dream of self-driving cars into reality ch a revolution could not
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In this article, we give an introduction and review recent developments of artificial intelligence Internet of Things, the various artificial intelligence Internet of Things computational frameworks and highlight the challenges and opportunities for effective deployment of artificial intelligence Internet of Things technology to address complex problems for various
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Everactive''s innovation solves both of these problems, simultaneously getting rid of the battery and reinventing low-power wireless networking with its differentiating technology: ultra-low-power integrated
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This paper studies the battery monitoring technology based on the Internet of Things, which is applied to monitor the operation and performance of the battery in the smart grid.
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Real-time data are collected from sensors via an Internet of Things (IoT) device and processed using Arduino Nano, which extracts values for input into a Long Short-Term
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Under the rapid growth of Internet of Things technology, many households are moving towards smart solutions. Addressing the inflexibility of temperature control in traditional heating systems, this research focuses on designing an intelligent heating system. To enhance flexibility and intelligence, an intelligent heating system based on the Internet of Things and
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As substations develop towards intelligent and unmanned modes, this paper proposes an online battery monitoring and management system based on the “cloud-network
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Abstract: This paper studies the battery monitoring technology based on the Internet of Things, which is applied to monitor the operation and performance of the battery in the smart grid. Through the research on the development background and research status of the battery monitoring industry, based on the structure of the Internet of Things and battery monitoring, the
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This concept, which combines aspects of the Internet-of-Things (IoT) with the latest advancements in battery technology and cloud computing, can provide a wealth of new information about battery health and performance. To prevent overfitting, they trained the deep Q-learning model using various randomly combined load profiles. The results
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In the sensing and device layer, the AIoT paradigm can take advantage of recently developed edge computing architectures 2 and machine-learning approaches, such as active learning (AL), 3 transfer learning (TL), 4 and federated learning (FL). 5 AL techniques can deal with the time-varying and unpredictable data over the IoT network. TL utilizes pre-trained
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The Internet of Things (IoT) is used to collect and track battery statistics in the cloud, which are then analyzed. The ThingSpeak makes it feasible to collect and analyze
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Mixed Reality applications have now penetrated people''s daily lives, contributing, amongst many other things, to navigation decisions, such as Google Maps , entertainment [2, 3], education and training .Ubiquitous networking and interoperable browsers have brought such applications from a niche technology to the mainstream of modern life.
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The startup Everactive uses ultra-low power chips to run its industrial “internet of things” platform on battery-less sensors. Credit: Image courtesy of Everactive Everactive customers are able to deploy more
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Integrating the Internet of Things (IoT) in battery systems has significantly transformed how batteries are observed and managed. IoT technology allows the remote
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An increasing number of objects (things) are being connected to the Internet as they become more advanced, compact, and affordable. These Internet-connected objects are paving the way toward the emergence of the Internet of Things (IoT). The IoT is a distributed network of low-powered, low-storage, light-weight and scalable nodes.
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No matter how sophisticated the technology is, chances are that any system may stop operating. In an AC power socket-powered system, this is a rare occurrence and is generally considered as a failure. In a regular battery-powered system, operation failure is
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The Internet of Things (IoT) has emerged as a transformative force in the digital era, revolutionizing the way we interact with technology and reshaping industries across the globe.
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Due to the working voltage window and temperature range, the lithium-ion battery (LIB) systems currently used in electric vehicles and portable electronics cannot be efficiently utilized for the power supply system of the global Internet of Things (IoT), represented by lithium/thionyl chloride (Li-SOCl 2) batteries or lithium/manganese dioxide (Li-MnO 2) batteries, which cannot provide
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The core of the research focuses on analyzing the discharge characteristic of a lithium NMC battery in an autonomous mobile robot, which can be used as a model to predict its future states depending on the amount of
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In the century of automation, which is digitized, and more and more technology is used, automatic systems'' replacement of old manual systems makes people''s lives easier. Nowadays, people have made the Internet an integral part of humans'' daily lives unless they are insecure. The Internet of Things (IoT) secures a platform that authorizes devices and sensors
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However, these traditional wireless communication solutions are expensive and also drain the battery life of devices connected to it. Internet-of-Things (IoT), demands devices that consume very little power and are less bulky. A solution to this is newly emerging passive technology called Ambient Backscatter Communication System.
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The Internet of Things (IoT) is a network of everyday things, connected together through the Internet. The function of an IoT system is to monitor the world around itself, to enable and assist, or to automate a response to changes in the system''s environment ([Botterman, 2009], [Techtarget, 2016]) comparison, the purpose of an IoT system is to improve the quality of life
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The traditional charging pile management system usually only focuses on the basic charging function, which has problems such as single system function, poor user experience, and inconvenient management. In this paper, the battery energy storage technology is applied to the traditional EV (electric vehicle) charging piles to build a new EV charging pile
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Intelligent internet of things service based on artificial intelligence technology 2021 IEEE 2nd International Conference on Big Data, Artificial Intelligence and Internet of Things Engineering, ICBAIE ( 2021 ), pp. 731 - 734, 10.1109/ICBAIE52039.2021.9390061
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Request PDF | Battery-less Internet of Things –A Survey | Traditional wireless communication technologies such as Bluetooth and Wi-Fi are used extensively over the last two decades. They offer
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Read stories about Internet of Things on Medium. Discover smart, unique perspectives on Internet of Things and the topics that matter most to you like IoT, Technology, Artificial Intelligence
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In modern wireless communications, IoT can be seen as one of the most revolutionary technologies (Atzori et al., 2017).Basically, IoT is a huge internet-based network to connect devices together for the better work (Manogaran et al., 2021, Santiteerakul et al., 2020).IoT technology has pervasively penetrated various markets such as smart health care,
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The Internet of Things (IoT) – an array of connected devices and sensors that collect and exchange data – is disrupting all sectors of economies and societies (Ismagilova et al., 2019; Rejeb et al., 2022; Shim et al., 2019).The IoT is reconfiguring production, supply chains, governance, and how we live our lives.
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Internet of Things (IoT), the vast array of physical objects equipped with sensors and software that enable them to interact with little human intervention by collecting and exchanging data via a network. The Internet of Things (IoT) includes the many “smart,” computer-like devices so commonplace today, which can connect with the Internet or interact via
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That technologies are converging has become a truism as ubiquitous as the term “Internet.” The trend is rapidly transforming society on a global level, defining market structures, social interactions (Ebecken 2011), individual politics, cultural production, and consumption (Valcanis 2011).A focus on convergence of technology traces its origins to the 1990s
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Smart sensors represent a new generation of perception and self-knowledge capabilities, and are key components of future smart batteries. Their development is driven by
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The Internet of Things (IoT) is evolving simultaneously across multiple dimensions — it has more electronics than ever to run accurate diagnostics, more sensors to increase autonomy, and better connectivity to avoid interference. The key advancement that makes all portable devices possible is the battery — the changes in battery
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The battery industry has formed a complete industrial chain , , with upstream raw materials such as cathode electrode materials, anode electrode materials, electrolytes, separators, solid electrolytes, structural parts, and nickel hydroxide , .The midstream of the battery industry chain include battery cells, battery management systems, thermal
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At the heart of this revolution is battery technology, which powers these connected devices and ensures their continuous operation. This blog explores the role of
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Instead of toxic algae, the city is now known for jump-starting Chinese research into the next generation of networked “smart” devices—a field loosely known as the Internet of Things. Development of this field, which
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In this work, neural network is used to keep track of the battery''s health. The proposed system consists of a load cell, a temperature sensor, a voltage transformer, and a current transformer.
Learn MoreThe IoT enables continuous data streams from distributed battery systems, offering dynamic and instantaneous insights into battery performance, degradation, and health status 8.
This data is subsequently transmitted to a cloud server, where it is utilized for battery state estimation, predictive analytics, and fault diagnosis . In contrast to traditional battery management systems (BMS), IoB leverages advanced technologies like IoT, cloud computing, and machine learning to provide intelligent battery management.
Discussions and future perspectives The Internet-of-Batteries (IoB) is an emerging technology that has the potential to revolutionize the electric vehicle (EV) industry by offering opportunities for greater efficiency, optimization, and intelligent management of EV batteries.
Through the integration of Internet-of-Things (IoT) and cloud technologies, IoB enables continuous battery prognosis, real-time data monitoring, and improved battery management, leading to enhanced vehicle performance, extended battery lifespan, and optimized energy utilization.
The BMS communicates directly with the wireless module, exchanging vital battery data and control commands. The wireless module acts as a bridge between the BMS and the IoT gateway. It contains a microcontroller unit (MCU) that processes the data from the BMS sensors and prepares it for transmission to the IoT gateway.
By utilizing an IoT-enhanced BMS, the RUL of batteries can be accurately predicted through continuous monitoring and predictive models, reducing the likelihood of failures and increasing overall system reliability 15.
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