Relevant bibliographies by topics / 1. Internet of Things (IoT

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  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
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Academic literature on the topic '1. Internet of Things (IoT'

Author: Grafiati
Published: 7 June 2025
Last updated: 17 July 2025

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Journal articles on the topic "1. Internet of Things (IoT"

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Linnhoff-Popien, Claudia. "1. Internet of Things (IoT)." Digitale Welt 2, no. 3 (2018): 24. http://dx.doi.org/10.1007/s42354-018-0102-6.

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Zasuhina, Ol'ga, Nikolay Malinin, Maxim Kuznetsov, and Ilia Gusev. "APPLICATION OF INTERNET OF THINGS TECHNOLOGIES (INTERNET OF THINGS, IoT) IN POWER SYSTEMS." Scientific Papers Collection of the Angarsk State Technical University 2023, no. 1 (2023): 187–91. http://dx.doi.org/10.36629/2686-7788-2023-1-187-191.

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IORDACHE, Dorin. "INTERNET OF THINGS SECURITY FRAMEWORK." STRATEGIES XXI - Security and Defense Faculty 17, no. 1 (2021): 287–93. http://dx.doi.org/10.53477/2668-2001-21-36.

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It was unimaginable for a non-professional user that access data to personal e-mail, bank or identity accounts could be stolen via a mobile phone interface or connection, no more than twenty years ago. Nowadays, people with bad intentions – hacker – can use smart devices, such as: webcams, microwaves, refrigerators, door controllers, and others, generically we named it IoT[1], to access accounts like the ones mentioned above, without much effort. The Internet of Things is the place where devices are digitally interconnected, interacts with almost every domain. IoT development is closely correlated with growing of Internet. These issues have generated an unprecedented upward trend in Wi-Fi and IoT interconnecting networks. Cyber-security has gained new meanings because of the increasing number and scope of IoT devices. By developing these devices, especially among regular users, it is necessary to improve their security more than ever. How prepared are regular users and how can they protect themselves in the context of IoT penetration into their daily lives? it is a question that needs to be answered, in terms of the actions it can take immediately or in the long run.
 
 [1] IoT - Internet of Things
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Singh, Jaydeep. "Internet of Things with Smart Contract." International Journal for Research in Applied Science and Engineering Technology 10, no. 5 (2022): 4505–9. http://dx.doi.org/10.22214/ijraset.2022.43446.

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Abstract- Smart contract is an automatic contract with the agreement between two parties, written into few lines of code. Agreements contained live across a distributed, decentralized blockchain network. Code controls the execution and transactions that are tractable and not changed [1]. This are the digital contract stored in block chain and executes automatically when condition meets [1]. IOT is network of physical devices that embedded with different sensors, software for exchanging data over internet [2].this are having advantages in all sectors including medical science, home automation, security etc. [2]. Future is IOT and smart contract technology is bright in near future as all IOT has lot of applications with use of smart contract technology to maintain integrity of data [2]. Keywords – Smart Contract, IOT, blockchain
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Ivankova, Galina V., Ekaterina P. Mochalina, and Natalia L. Goncharova. "Internet of Things (IoT) in logistics." IOP Conference Series: Materials Science and Engineering 940 (October 8, 2020): 012033. http://dx.doi.org/10.1088/1757-899x/940/1/012033.

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Sharma, Paribhasha, and Srinivas Jangirala. "Internet of Things for sustainable urbanism." Journal of Physics: Conference Series 2236, no. 1 (2022): 012008. http://dx.doi.org/10.1088/1742-6596/2236/1/012008.

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Abstract Cities around the world are facing enormous strain to sustain and improve the quality of life (QoL) owing to rapid urbanization and rising populations. Management of urban resources in a responsible manner is key to sustainable development in rapidly urbanizing regions. Cities are increasingly making use of modern technologies with a focus on cost reduction, optimal resource utilization and creation of more liveable urban environment. Such cities, called smart cities, have gained traction with policy makers, politicians and urban managers having the attributes of sustainable urbanism, QoL, and smartness. Smart cities provide digital intelligence to existing cities by creating a ubiquitous, integrated and smart environment where IoT applications impart seamless interconnection, interaction, control and insights about the isolated systems within the cities. This paper discusses and reviews the role of IoT for sustainable smart cities by highlighting IoT applications for smart cities. The challenges and opportunities associated with IoT enabled smart cities are also highlighted.
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Santoso, Iman Hedi, Tody Ariefianto Wibowo, Ahmad Tri Hanuranto, Muhammad Azaria Widyadhana, and Mahendra Adi Rahmawan. "PERANCANGAN SISTEM PENYIRAMAN VERTICAL GARDEN BERBASIS INTERNET OF THINGS DAN SOSIALISASI INTERNET OF THINGS BAGI SISWA SMAN 1 DAYEUHKOLOT." Prosiding Konferensi Nasional Pengabdian Kepada Masyarakat dan Corporate Social Responsibility (PKM-CSR) 6 (November 18, 2023): 1–9. http://dx.doi.org/10.37695/pkmcsr.v6i0.2067.

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Pada era perkembangan teknologi yang semakin maju ini, teknologi IoT juga semakin berkembang. IoT ini merupakan teknologi yang sangat membantu pekerjaan manusia dalam berbagai aktifitasnya, salah satunya adalah dibidang perkebunan. Dengan adanya IoT, pekerjaan-pekerjaan seperti memantau kelembaban tanah dan melakukan penyiraman tanaman, yang merupakan faktor penting untuk pertumbuhan tanaman, dapat dikontrol dari jarak jauh. Oleh karena itu, SMAN 1 Dayeuhkolot, sebagai institusi pendidikan yang peduli terhadap kesehatan dan kenyamanan siswanya, ingin memanfaatkan teknologi IoT sebagai sistem otomatisasi pada Vertical Garden yang sedang dikembangkan di institusi tersebut.
 Pengabdian masyarakat yang telah diselenggarakan di SMAN 1 Dayeuhkolot, bertujuan untuk membantu sistem penghijauan di sekolah dalam bentuk implementasi Vertical Garden. Dalam realisasinya, Vertical Garden diletakkan pada salah satu lahan di sekolah yang akan digunakan sebagai ruang baca siswa. Pengabdian masyarakat diselenggarakan dengan cara menyerahkan produk Vertical Garden yang dilanjutkan dengan sesi presentasi yang menjelaskan tutorial penggunaan alat dan sosialisasi IoT sebagai basic technology. Pada sesi demo alat dalam pengabdian masyarakat, Vertical Garden tersebut dapat bekerja dengan baik, sensor YL-100 yang digunakan dapat memantau kondisi air pada tanah, mengotomatisasi sistem penyiraman air, dan men-trigger pengiriman data menuju platform Blynk. Melalui aplikasi Blynk ini, pihak sekolah dapat memantau sistem Vertical Garden secara remote.
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Savytska, Liudmyla, Tetiana Korobeinikova, Oleh Kostiuk, Iryna Kolesnyk, and Oleksandr Dudnyk. "INTERNET OF THINGS PROTECTION MEANS IN THE CORPORATE COMPUTER NETWORK." Information technology and computer engineering 59, no. 1 (2024): 83–93. http://dx.doi.org/10.31649/1999-9941-2024-59-1-83-93.

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This work pertains to the analysis and enhancement of security measures for the Internet of Things (IoT) in corporate computer networks. The Internet of Things encompasses a wide range of data, including personal information, making the issue of security during their transmission highly relevant. The primary goal of the research is the development of an advanced technological design for the IoT system to ensure a high level of security and confidentiality of information. The modern world of the Internet of Things demands an analysis and improvement of IoT security in corporate computer networks. In the process of analysis, publicly available information sources and scientific approaches were utilized, including contemporary scientific publications, analytical reports, and resources from leading companies, such as Cisco, specializing in network equipment and configuration of corporate networks. This approach allows for the consideration of the latest trends and technological solutions in the field of IoT security. One of the key issues addressed is the development of an extended and improved technological design for the IoT system. Considering the constant evolution of technologies, it is essential to ensure a high level of adaptability and flexibility of security measures to effectively operate in various conditions and circumstances. An additional emphasis is placed on studying the impact of an extended and improved technological design of the IoT system. It is crucial to establish synergy between new technological solutions and existing network structures to achieve maximum effectiveness in enhancing security and efficiency. Therefore, the scientific work focuses on a comprehensive analysis and implementation of cutting-edge security measures for IoT in corporate networks, taking into account contemporary trends and data security requirements.
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Salikhov, R. B., V. Kh Abdrakhmanov, and I. N. Safargalin. "Internet of Things (IoT) Security Alarms on ESP32-CAM." Journal of Physics: Conference Series 2096, no. 1 (2021): 012109. http://dx.doi.org/10.1088/1742-6596/2096/1/012109.

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Abstract The article presents the basic requirements for systems operating on the technology of the industrial / industrial "Internet of Things" (Industrial Internet of Things, IIoT). presents the main technologies with which it is recommended to develop IIoT devices. These are low-level programming of microcontrollers using the STM32 example, working with real-time systems (using Mbed OS as an example), using low-power wireless technologies, such as LoRa, 6LoWPAN, NB-IoT, ZigBee, Bluetooth Low Energy (BLE). It is also necessary to use special protocols, for example, the MQTT application layer protocol, the use of special cloud services, for example, Artik Cloud, IBM Cloud, Intel Cloud. The article also provides the main features of the choice of hardware - a development board for a microcontroller, wireless communication modules, as well as features of choosing software to accelerate the stage of initial debugging and development of a device prototype. It also provides a brief overview of existing security alarm solutions based on the Internet of Things (IoT) and Smart Home technologies. The idea of creating a budget solution based on Arduino and ESP32-CAM is presented. A prototype was assembled, the device was tested in operation.
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Santhosh, N., M. Srinivsan, and K. Ragupathy. "Internet of Things (IoT) in smart manufacturing." IOP Conference Series: Materials Science and Engineering 764 (March 7, 2020): 012025. http://dx.doi.org/10.1088/1757-899x/764/1/012025.

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Dissertations / Theses on the topic "1. Internet of Things (IoT"

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Vaidian, Iulia, Muhammad Azmat, and Sebastian Kummer. "Impact of Internet of Things on Urban Mobility." HBMSU, 2019. http://epub.wu.ac.at/7101/1/IA%2D12%2DProceedings%2DHealth%2Dand%2DEnvironment%2Dpages%2D1%2C4%2D17.pdf.

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The urban population is predicted to increase to 66% by 2050. The rapid growth of urbanization and increasing congestion are significant challenges faced by the world today. Innovative solutions in urban mobility are key for a successful development and a sustainable future. The new paradigm, Internet of Things (IoT), facilitates the need for new approaches in urban transportation, leading to a modern concept: Smart Mobility. The boom of technology and innovation from recent years allowed a great expansion of IoT. Furthermore, the number of smart devices that communicate, cooperate and complement each other, grows rapidly in every domain broadening the scope of IoT applications. This paper sets to discuss the impact that IoT might have on urban mobility, mentioning its implications, challenges and technical solutions. It further reviews the advancements made in the transport infrastructure along the years that support the emergence of Smart Mobility. Three main research questions stay at the forefront of this paper which are drafted in pursuit of the solutions for the problems and challenges currently faced by urban transportation. Which leads to a sustainable future with efficient and effective urban transportation system. The paper uses a mix-method approach, using on one hand qualitative research for literature review (State of the field) and on the other hand quantitative research to assess public opinion on the research topic, through an online questionnaire. To answer the research questions with proper arguments, both research methods were necessary, which lead to optimal results. The results of the questionnaire were interpreted based on Spearman's correlation and descriptive statistical analysis. They brought an in-depth view on the public opinion regarding IoT and the developments enabled by this paradigm within the urban mobility sphere. The output of the questionnaire highlights the eagerness of participants usually stuck in traffic to see innovation within urban mobility. Over all the results based on the opinions suggest that the public strongly believes in the Internet of Thing's applications and its adaptation will benefit the urban transportation system. Furthermore, new developments in the urban mobility sphere will be largely embraced.
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Christensen, Bryce. "Building an internet of things (IoT) air quality sensing platform on Amazon web services (AWS)." Thesis, Queensland University of Technology, 2021. https://eprints.qut.edu.au/207757/1/Bryce_Christensen_Thesis.pdf.

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This thesis explores the design and development of the cloud based IT infrastructure for an Internet of Things (IoT) network of low-cost air quality sensors. The platform is developed on Amazon Web Services (AWS) and includes the network infrastructure, data storage, post processing and various web visualisations supporting the research endeavour.
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Chelle, Hugo. "Contrôle de charge des réseaux IoT : D'une étude théorique à une implantation réelle." Thesis, Toulouse, INPT, 2018. http://oatao.univ-toulouse.fr/24349/1/Chelle_hugo.pdf.

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Prenons en exemple une salle de classe composée d’un professeur et de nombreux élèves, lorsque trop d’élèves s’adressent en même temps au professeur ce dernier n’est plus en mesure de comprendre les paroles transmisses par les élèves. Cette illustration s’étend évidemment aux systèmes de communications sans fil (la 4G par exemple). Dans ces systèmes, les terminaux (les élèves par analogie) transmettent sur un canal, nommé canal en accès aléatoire, des messages qui sont potentiellement réceptionnés par la station de base (le professeur par analogie). Ces canaux ne sont habituellement pas surchargés car leur capacité (nombre de messages reçus par seconde) est tellement importante qu’il est très complexe de surcharger le canal. L’émergence de l’Internet des objets où des milliards de petits objets devraient être déployés partout dans le monde a changé la donne. Étant donné leur nombre et leur type de trafic, ces derniers peuvent surcharger les canaux en accès aléatoire. Ainsi, le sujet : « contrôle de charge des canaux en accès aléatoire » a connu un gain d’intérêts ces dernières années. Dans cette thèse nous avons développé des algorithmes de contrôle de charge permettant d’éviter qu’une station de base soit surchargée. Cela est très utile pour les opérateurs Télécoms, ils sont désormais certains qu’il y n’y aura pas de perte de service à cause de ces surcharges. Tous les principes développés dans cette thèse seront intégrés dans un futur proche aux produits IoT d’Airbus.
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Abane, Amar. "A realistic named data networking architecture for the Internet of things." Thesis, Paris, CNAM, 2019. http://www.theses.fr/2019CNAM1255/document.

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L’Internet des objets (IdO) utilise l’interconnexion de milliards de petits appareils informatiques, appelés «Objets», pour fournir un accès à des services et à des informations partout dans le monde. Cependant, la suite de protocoles IP a été conçue il y a plusieurs décennies dans un but totalement différent, et les fonctionnalités de l’IoT soulignent désormais les limites de l’IP. En parallèle aux efforts d’adaptation de l’IP à l’IdO, des architectures alternatives basées sur les réseaux orientés information promettent de satisfaire nativement les applications Internet émergentes. L’une de ces architectures est appelée réseau de données nommées (NDN). Nos objectifs à travers le travail rapporté dans ce manuscrit peuvent êtrerésumés en deux aspects. Le premier objectif est de montrer que NDN est adapté à la prise en charge des systèmes IdO. Le deuxième objectif est la conception de deux solutions de communication légères pour les réseaux sans fil contraints avec NDN<br>The Internet of Things (IoT) uses the interconnection of billions of small computing devices, called “Things”, to provide access to services and information all over the world. However, the IP protocol suite has been designed decades ago for a completely different purpose, and IoT features now highlight the limitations of IP. While adapting IP for the IoT might be seen as cutting corners, alternative architectures based on the Information Centric Networking (ICN) paradigm promise to natively satisfy emerging Internet applications. One of these architectures is Named Data Networking (NDN). Our objectives through the work reported in this manuscript can be summarized in two aspects. The first objective is to show that NDN is suitable to support IoT networking. The second objective is the design of two solutions for lightweight forwarding in constrained wireless networks
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Abane, Amar. "A realistic named data networking architecture for the Internet of things." Electronic Thesis or Diss., Paris, CNAM, 2019. http://www.theses.fr/2019CNAM1255.

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L’Internet des objets (IdO) utilise l’interconnexion de milliards de petits appareils informatiques, appelés «Objets», pour fournir un accès à des services et à des informations partout dans le monde. Cependant, la suite de protocoles IP a été conçue il y a plusieurs décennies dans un but totalement différent, et les fonctionnalités de l’IoT soulignent désormais les limites de l’IP. En parallèle aux efforts d’adaptation de l’IP à l’IdO, des architectures alternatives basées sur les réseaux orientés information promettent de satisfaire nativement les applications Internet émergentes. L’une de ces architectures est appelée réseau de données nommées (NDN). Nos objectifs à travers le travail rapporté dans ce manuscrit peuvent êtrerésumés en deux aspects. Le premier objectif est de montrer que NDN est adapté à la prise en charge des systèmes IdO. Le deuxième objectif est la conception de deux solutions de communication légères pour les réseaux sans fil contraints avec NDN<br>The Internet of Things (IoT) uses the interconnection of billions of small computing devices, called “Things”, to provide access to services and information all over the world. However, the IP protocol suite has been designed decades ago for a completely different purpose, and IoT features now highlight the limitations of IP. While adapting IP for the IoT might be seen as cutting corners, alternative architectures based on the Information Centric Networking (ICN) paradigm promise to natively satisfy emerging Internet applications. One of these architectures is Named Data Networking (NDN). Our objectives through the work reported in this manuscript can be summarized in two aspects. The first objective is to show that NDN is suitable to support IoT networking. The second objective is the design of two solutions for lightweight forwarding in constrained wireless networks
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Mahboubi, Arash. "Security of critical information infrastructures exposed to mobile personal devices." Thesis, Queensland University of Technology, 2018. https://eprints.qut.edu.au/118743/1/Arash_Mahboubi_Thesis.pdf.

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Mobile personal devices with USB communication capabilities are essential elements of our modern lives. Their large-scale pervasive deployment within the population has promoted many malware attacks some of which are capable of in&#64257;ltrating physically isolated critical control systems. This research investigates mobile malware capable of infecting and spreading through a system with heterogeneous computing, communication and storage components. Two novel prevention methods are presented: user accountability and system immunity. While the former uses a novel intrusive USB authentication, authorization and accounting solution, the latter exploits coding theory to make the system immune and allergic to the malware behaviour.
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Li, Wenda. "Understanding the state-of-the-art, emerging trends and impacts of smart homes on future living." Thesis, Queensland University of Technology, 2022. https://eprints.qut.edu.au/230960/1/Wenda_Li_Thesis.pdf.

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This MPhil thesis provides a macroscopic overview of existing smart home research to generate an understanding of its evolution, existing practices, emerging trends, and adoption matters in the context of 'shifting to smart living'. It may assist practitioners, researchers, policymakers and planners to recognise the potential of smart homes in shaping future living, cities, and societies, and help to address the potential influences and challenges that may be posed by this innovation.
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Khalid, Ahmad. "A secure localization framework of RAIN RFID objects for ambient assisted living." Phd thesis, Toulouse, INPT, 2017. http://oatao.univ-toulouse.fr/19518/1/KHALID_Ahmad.pdf.

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Internet of things (IoT) is currently on our doorsteps. Numerous domains have beneted from this technology. It ranges from a simple application such as identifying an object up to handling a more complex system. The Radio Frequency IDentication (RFID) is one of the enabling technologies that drive the IoT to its position today. It is small, cheap and does not require any additional power sources. Along with its ubiquitous functionality, this technology enables the positioning of an object within a specic area. Ambient Assisted Living (AAL) is one of the many domains that benet from the IoT. It aims at assisting elderly people in their daily routines by providing new assistive services in smart homes for instance. RFIDs in a smart home come as a great help to an elderly person, for example, to nd an object that they misplaced. However, even with all its benets in simplifying our lives, it is unfortunately double-edged where the advantage that it brings to an object could in turn go against itself. Indeed to be able to help the older adults to locate an object, the system requires certain data in relation to the positioning of the object and its identication. As the passive RFID tag coverage is very small, once its presence is detected, it is dicult to hide it. The ability of this technology in localizing objects gives an opportunity to a third person to take an advantage of the system. In parallel with the persistent and constant need of privacy and secrecy by the users, the objective of this thesis consists of improving the privacy in localizing an object through a new protocol based on the latest version of the RFID second generation passive tag. The proposed protocol must be able to prevent an object from being identied and located by unauthorized parties or a malicious reader. The rst contribution of this work is the assessment of the RFID anti collision management. It is performed through the creation of an OMNET++ framework, modelled and built based on the latest RFID standard developed by GS1 and incorporated by ISO/IEC called Gen2V2 (RFID class 2 Generation 2 Version 2). It is a passive RFID tag that does not require any internal power sources to operate. It communicates using the UHF frequency. The Gen2V2 standard provides a list of cryptographical suites that can be used as a method to authenticate a tag and a reader. This new generation of tags is supported by an alliance of manufacturers called RAIN (RAdio frequency IdenticatioN) that promotes the adoption of the Gen2V2. The anti collision management overall performance is then compared with its theoretical value and four of its cryptographical suites namely PRESENT80, XOR, AES128 and cryptoGPS. Among the performances evaluated within the framework is the number of collisions and the duration required to interrogate a group of tags. Note that an addition of a localization functionality within the framework reveals that exchanged messages through wireless channel prior to the authentication can lead to a malicious localization of an object. To increase the localization privacy within AAL application, we propose therefore a second contribution which is a new localization method that is based on the current Gen2V2 standard exchanges by anonymizing the tag identity.
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Nazim, Umair. "Securing Internet of Things (IoT)." Thesis, The University of Sydney, 2018. http://hdl.handle.net/2123/20275.

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The Internet of Things (IoT) is our future and human life is now entering in to a generation where everyone will be using sensory information and artificial intelligence to make day to day life decisions in real-time. With implementation and enhancements around Internet protocol (IP) now it’s possible to connect and control these devices from anywhere around the globe they can be control by either human or even machines. Security is a critical element and building block for Internet of things (IoT) success. First, we have worked finding out possibility of detecting different types of attacks in Internet of things Wireless networks and identify them based on throughput, delay and energy consumed. Attack that we have work on include DOS attacks and DDOS attacks. Motivated by current use of Blockchain in resolving various problems we have evaluated its implementation to find solutions to secure Internet of Things. This become possible by utilising block chain network and smart contracts to validate any IoT communication . Using Blockchain network allowed IoT to detect securely authenticate without over utilizing device resource keeping in mind the limited hardware and bandwidth. IoT node or nodes communicates to a validator node within Blockchain network to get the most current binary of contracts status and in order to achieve this all the devices required to be in sync with Blockchain version of accounts stored by this validator node. We have worked out how this communication will work in order to ensure security and privacy while doing performance analysis of overheads. In conclusion IoT and Blockchain combine together is very promising solution to solve many current security issues in order to take it to mass scale deployment which allow implementation of Internet of things for a purposeful manner.
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Iqbal, Muhammad Azhar. "Internet of Things (IoT) Industry Gateway Modelling." Thesis, Mittuniversitetet, Avdelningen för informations- och kommunikationssystem, 2016. http://urn.kb.se/resolve?urn=urn:nbn:se:miun:diva-28691.

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The Internet of Things (IoT) provide the possibility to build dynamic industrial systems and applications to improve the quality of production in industrial areas. There are many Industrial IoT Gateways (IoTGWs) available on the market, all of which have different functionalities and properties. Here, the different properties of the IIoTGWs were explored, with the researcher’s as well as vendor’s perspective in mind. The most important properties were identified using research papers and technical data sheets, based on this, a model was created. The model showed the best two gateways available in the database. The results show that methods used can be applied in future research.
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Books on the topic "1. Internet of Things (IoT"

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Japan) IOT (Conference) (2010 Tokyo. 2010 Internet of things: (IOT 2010) , Tokyo, Japan, 29 November- 1 December 2010. IEEE, 2010.

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Gupta, Sunil, Hitesh Kumar Sharma, and Monit Kapoor. Blockchain for Secure Healthcare Using Internet of Medical Things (IoMT). Springer International Publishing, 2023. http://dx.doi.org/10.1007/978-3-031-18896-1.

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Alam, Mansaf, Kashish Ara Shakil, and Samiya Khan, eds. Internet of Things (IoT). Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-37468-6.

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Mandler, Benny, Johann Marquez-Barja, Miguel Elias Mitre Campista, et al., eds. Internet of Things. IoT Infrastructures. Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-47075-7.

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Mandler, Benny, Johann Marquez-Barja, Miguel Elias Mitre Campista, et al., eds. Internet of Things. IoT Infrastructures. Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-47063-4.

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Serpanos, Dimitrios, and Marilyn Wolf. Internet-of-Things (IoT) Systems. Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-69715-4.

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Giaffreda, Raffaele, Dagmar Cagáňová, Yong Li, Roberto Riggio, and Agnès Voisard, eds. Internet of Things. IoT Infrastructures. Springer International Publishing, 2015. http://dx.doi.org/10.1007/978-3-319-19743-2.

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Behmann, Fawzi, and Kwok Wu. Collaborative Internet of Things (C-IOT). John Wiley & Sons Ltd, 2015. http://dx.doi.org/10.1002/9781118913734.

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Giaffreda, Raffaele, Radu-Laurentiu Vieriu, Edna Pasher, et al., eds. Internet of Things. User-Centric IoT. Springer International Publishing, 2015. http://dx.doi.org/10.1007/978-3-319-19656-5.

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Ahmed, Mobyen Uddin, Shahina Begum, and Jean-Baptiste Fasquel, eds. Internet of Things (IoT) Technologies for HealthCare. Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-76213-5.

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Book chapters on the topic "1. Internet of Things (IoT"

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Ranjan, Prashant, Ram Shringar Rao, Krishna Kumar, and Pankaj Sharma. "Internet of Things (IoT)." In Wireless Communication. CRC Press, 2022. http://dx.doi.org/10.1201/9781003181699-1.

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Ramakrishnan, Ravi, and Loveleen Gaur. "Demystifying the Industrial IoT Paradigm." In Internet of Things. Chapman and Hall/CRC, 2019. http://dx.doi.org/10.1201/9780429486593-1.

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Pandey, Utpal, Vivek Kumar Srivastav, Brijesh Kumar Chaurasia, and Neelu. "IoT Conceptual Model and Application." In Internet of Things. CRC Press, 2022. http://dx.doi.org/10.1201/9781003219620-1.

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Chatterjee, Ayan. "Internet of Things (IoT)." In Building Apps for the Universal Windows Platform. Apress, 2017. http://dx.doi.org/10.1007/978-1-4842-2629-2_6.

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Haber, Morey J., and Brad Hibbert. "Internet of Things (IoT)." In Privileged Attack Vectors. Apress, 2017. http://dx.doi.org/10.1007/978-1-4842-3048-0_14.

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Kuiler, Erik W. "Internet of Things (IoT)." In Encyclopedia of Big Data. Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-319-32001-4_122-1.

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Shandilya, Shishir Kumar, Soon Ae Chun, Smita Shandilya, and Edgar Weippl. "IoT Security: An Introduction." In Internet of Things Security. River Publishers, 2022. http://dx.doi.org/10.1201/9781003338642-1.

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Rajeswari, R. "Internet of Things." In Securing IoT in Industry 4.0 Applications with Blockchain. Auerbach Publications, 2021. http://dx.doi.org/10.1201/9781003175872-1.

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Dalal, Sandeep, and Kamna Solanki. "Green-IoT (G-IoT)." In Green Internet of Things for Smart Cities. CRC Press, 2021. http://dx.doi.org/10.1201/9781003032397-1.

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Saini, Sameeka. "IoT." In Security Implementation in Internet of Medical Things. CRC Press, 2023. http://dx.doi.org/10.1201/9781003269168-1.

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Conference papers on the topic "1. Internet of Things (IoT"

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Saikia, Parikshit. "An O(1)-rounds Deterministic Distributed Approximation Algorithm for the Traveling Salesman Problem in Congested Clique." In 2024 20th International Conference on Distributed Computing in Smart Systems and the Internet of Things (DCOSS-IoT). IEEE, 2024. http://dx.doi.org/10.1109/dcoss-iot61029.2024.00034.

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"IOT-1: Internet of Things communications and technologies workshop — 1." In 2013 IEEE 9th International Conference on Wireless and Mobile Computing, Networking and Communications (WiMob). IEEE, 2013. http://dx.doi.org/10.1109/wimob.2013.6673328.

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Coallier, François. "IoT Standardization Strategies in ISO/IEC JTC 1/SC 41." In 2022 IEEE 8th World Forum on Internet of Things (WF-IoT). IEEE, 2022. http://dx.doi.org/10.1109/wf-iot54382.2022.10152233.

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Babu, N. Sarat Chandra. "Keynote 1: Internet of Things(IoT) and augmented reality for e-learning." In 2017 5th National Conference on E-Learning & E-Learning Technologies (ELELTECH). IEEE, 2017. http://dx.doi.org/10.1109/eleltech.2017.8074987.

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Castelo Branco, Karina da Silva, Valéria Lelli Leitão Dantas, and Liana Mara Carvalho. "Interoperability Testing Guide for the Internet of Things." In Proceedings of the Brazilian Symposium on Multimedia and the Web. Sociedade Brasileira de Computação - SBC, 2024. http://dx.doi.org/10.5753/webmedia.2024.242058.

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The Internet of Things (IoT) has expanded the Internet by integrating smart objects, which when interconnected, can collect and share information to provide services. However, the intense data traffic and the diversity of interaction methods of smart objects, which vary based on the protocols and standards, bring several challenges for IoY Interoperability Testing. Such testing evaluates the capability of systems and devices to cooperate effectively. Regarding the challenges in IoT interoperability testing, we highlight the complexity of IoT architecture, the devices heterogeneity, and the guarantee of effective connectivity among the smart objects. In this context, this paper presents a interoperability testing guide for IoT. The guide was developed based on a literature review using systematic mapping and an analysis of real IoT environments. The guide’s evaluation consisted of two steps: (1) a structural assessment using the Technology Acceptance Model (TAM), and (2) a controlled experiment applying the guide to test a real IoT application.
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Sheetal, Ashwni Kumar, Ritu Kandari, and Surbhi Bharti. "Performance Analysis of 4:1 Multiplexer with DTMOS Technique." In 2019 4th International Conference on Internet of Things: Smart Innovation and Usages (IoT-SIU). IEEE, 2019. http://dx.doi.org/10.1109/iot-siu.2019.8777465.

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Zhao, Xiangchen, Kurian Karyakulam Sajan, Gowri Sankar Ramachandran, and Bhaskar Krishnamachari. "Demo Abstract: The Intelligent IoT Integrator Data Marketplace - Version 1." In 2020 IEEE/ACM Fifth International Conference on Internet-of-Things Design and Implementation (IoTDI). IEEE, 2020. http://dx.doi.org/10.1109/iotdi49375.2020.00042.

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Arjona, Ricardo, Craig Lee, Miguel Razo, Marco Tacca, Andrea Fumagalli, and Kumaran Vijayasankar. "A Sub-1 GHz Wireless Sensor Network Concentrator Using Multicollectors with Load Balancing for Improved Capacity and Performance." In 2021 IEEE 7th World Forum on Internet of Things (WF-IoT). IEEE, 2021. http://dx.doi.org/10.1109/wf-iot51360.2021.9595068.

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"Keynote Speech 1 Biological Effects of Electromagnetic Waves and Radiation in IoT Environments." In 2018 Fifth International Conference on Internet of Things: Systems, Management and Security (IoTSMS). IEEE, 2018. http://dx.doi.org/10.1109/iotsms.2018.8554722.

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Tailor, Dheeraj, Tavesh Sharma, and Manoj Mumar. "Design of CMOS Based 1-bit Comparator with MTCMOS and Forced Stack Technique in 180nm Technology." In 2019 4th International Conference on Internet of Things: Smart Innovation and Usages (IoT-SIU). IEEE, 2019. http://dx.doi.org/10.1109/iot-siu.2019.8777496.

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Reports on the topic "1. Internet of Things (IoT"

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Phillips, Paul. The Application of Satellite-based Internet of Things for New Mobility. SAE International, 2024. http://dx.doi.org/10.4271/epr2024001.

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&lt;div class="section abstract"&gt;&lt;div class="htmlview paragraph"&gt;With the increased use of devices requiring the Internet of Things (IoT) to enable “New Mobility,” the demand for satellite-enabled IoT is growing steadily, owing to the extensive coverage provided by satellites (over existing ground-based infrastructure). Satellite-based IoT provides precise and real-time vehicle location and tracking services, large-scale geographical vehicle and/or infrastructure monitoring, and increased coverage for remote locations where it may not be possible to install ground-based solutions.&lt;/div&gt;&lt;div class="htmlview paragraph"&gt;&lt;b&gt;The Application of Satellite-based Internet of Things for New Mobility&lt;/b&gt; discusses satellite-based IoT topics that still need addressing, which can be broadly classifieds into two areas: (1) affordable technology and (2) network connectivity and data management. While recent innovations are driving down the cost of satellite-based IoT, it remains relatively expensive, and widespread adoption is still not as high as terrestrial, ground-based systems. Security concerns over data and privacy also create significant barriers to entry and need to be addressed along with issues such as intermittent connectivity, latency and bandwidth limitations, and data storage and processing restrictions.&lt;/div&gt;&lt;div class="htmlview paragraph"&gt;&lt;a href="https://www.sae.org/publications/edge-research-reports" target="_blank"&gt;Click here to access the full SAE EDGE&lt;/a&gt;&lt;sup&gt;TM&lt;/sup&gt;&lt;a href="https://www.sae.org/publications/edge-research-reports" target="_blank"&gt; Research Report portfolio.&lt;/a&gt;&lt;/div&gt;&lt;/div&gt;
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Latorre, Lucia, Eduardo Rego, and Lorenzo De Leo. Tech Report: Internet of Things. Inter-American Development Bank, 2025. https://doi.org/10.18235/0013422.

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The following report delves into the essential components that make up IoT systems, illustrative examples of the IoT in action, and its broad spectrum of applications spanning multiple industries, highlighting the tangible benefits it delivers. Furthermore, it addresses the burgeoning IoT landscape in Latin America and the Caribbean, underscoring the unique opportunities and challenges faced in the region. The discussion also covers critical considerations surrounding IoT security, ethics, and the challenges and risks inherent to its deployment. Best practices for implementing IoT solutions are shared to guide organizations in navigating this complex yet promising field responsibly. Concluding with a glimpse into future trends, the article aims to equip readers with a comprehensive understanding of the IoT, its vast potential, and the ethical framework required for its responsible implementation.
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Hong, J., X. de, M. Kovatsch, E. Schooler, and D. Kutscher. Internet of Things (IoT) Edge Challenges and Functions. RFC Editor, 2024. http://dx.doi.org/10.17487/rfc9556.

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Gomez, C., J. Crowcroft, and M. Scharf. TCP Usage Guidance in the Internet of Things (IoT). RFC Editor, 2021. http://dx.doi.org/10.17487/rfc9006.

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Megas, Katerina, Ben Piccarreta, and Danna Gabel O'Rourke. Internet of things (IoT) cybersecurity colloquium: a NIST workshop proceedings. National Institute of Standards and Technology, 2017. http://dx.doi.org/10.6028/nist.ir.8201.

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Simmon, Eric. Internet of Things (IoT) component capability model for research testbed. National Institute of Standards and Technology, 2020. http://dx.doi.org/10.6028/nist.ir.8316.

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Chandra, Shailesh, Robert Valencia, and Vamsi Krishna Oruganti. Examining Transit Service Improvements with Internet-of-Things (IoT): A Disparity Analysis. Mineta Transportation Institute, 2024. http://dx.doi.org/10.31979/mti.2024.2330.

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Literature shows that poor service reliability of transit often leads to uncertain waiting times at transit stations, diminishing their popularity and usage, and this particularly affects low-income populations more likely to rely heavily on transit. This research delves into an in-depth analysis of the inequality assessment of the Los Angeles (LA) Metro Rail lines, with a particular focus on evaluating the potential impacts of integrating Internet of Things (IoT) technology. This study investigates how IoT could influence service connectivity, accessibility, and the existing disparities in transit services. The primary goal of this study is to assess how the implementation of IoT technology could enhance the connectivity and accessibility of LA Metro Rail services, and whether such technological advancements could contribute to mitigating service inequality. The research methodology encompasses a comprehensive analysis of connectivity and accessibility values across all LA Metro Rail lines for the years 2015, 2017, and 2019. This approach allows for evaluating the potential impact of IoT technology on service connectivity and accessibility for inequality. The study considers several factors, including potential ridership based on low-income populations’ proximity to transit stations and the integration process of IoT technologies within the rail service infrastructure. The study reveals that IoT implementation could significantly improve service accessibility across all rail lines, indicating a positive trend in technological advancements enhancing public transit. However, the impact on reducing service inequality is inconsistent. Notably, Rail Line B would experience fluctuating accessibility with IoT, while Rail Line C showed persistent inequality under IoT deployment scenarios. These findings suggest that while IoT could hold promise for enhancing service quality, its effectiveness is subject to a range of influencing factors, scheduled frequency and stops at stations for the transit rail lines as well as the presence of low-income populations near these stations.
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Chandra, Shailesh, Robert Valencia, and Vamsi Krishna Oruganti. Examining Transit Service Improvements with Internet-of-Things (IoT): A Disparity Analysis. Mineta Transportation Institute, 2024. http://dx.doi.org/10.31979/mti.2024.2354.

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Literature shows that poor service reliability of transit often leads to uncertain waiting times at transit stations, diminishing their popularity and usage, and this particularly affects low-income populations more likely to rely heavily on transit. This research delves into an in-depth analysis of the inequality assessment of the Los Angeles (LA) Metro Rail lines, with a particular focus on evaluating the potential impacts of integrating Internet of Things (IoT) technology. This study investigates how IoT could influence service connectivity, accessibility, and the existing disparities in transit services. The primary goal of this study is to assess how the implementation of IoT technology could enhance the connectivity and accessibility of LA Metro Rail services, and whether such technological advancements could contribute to mitigating service inequality. The research methodology encompasses a comprehensive analysis of connectivity and accessibility values across all LA Metro Rail lines for the years 2015, 2017, and 2019. This approach allows for evaluating the potential impact of IoT technology on service connectivity and accessibility for inequality. The study considers several factors, including potential ridership based on low-income populations’ proximity to transit stations and the integration process of IoT technologies within the rail service infrastructure. The study reveals that IoT implementation could significantly improve service accessibility across all rail lines, indicating a positive trend in technological advancements enhancing public transit. However, the impact on reducing service inequality is inconsistent. Notably, Rail Line B would experience fluctuating accessibility with IoT, while Rail Line C showed persistent inequality under IoT deployment scenarios. These findings suggest that while IoT could hold promise for enhancing service quality, its effectiveness is subject to a range of influencing factors, scheduled frequency and stops at stations for the transit rail lines as well as the presence of low-income populations near these stations.
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Boeckl, Katie, Michael Fagan, William Fisher, et al. Considerations for managing Internet of Things (IoT) cybersecurity and privacy risks. National Institute of Standards and Technology, 2019. http://dx.doi.org/10.6028/nist.ir.8228.

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Garcia-Morchon, O., S. Kumar, and M. Sethi. Internet of Things (IoT) Security: State of the Art and Challenges. RFC Editor, 2019. http://dx.doi.org/10.17487/rfc8576.

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