A Survey on Internet of Things: Case Studies, Applications, and Future Directions
01 Jan 2017-pp 281-297
TL;DR: This chapter gives an idea of Internet of Things (IoT), the technologies that enable the implementation of IoT, the objectives and the future vision of IoT), the general layered architecture of IoT and thefuture growth challenges.
Abstract: Internet is recognized as the best innovative and influential establishment in the human history. The Internet of Things (IoT) represents the upcoming huge step in the Internet with its ability to gather, distribute, analyze and interpret data. The combination of Internet with RFID technologies, smart objects, sensor technologies, network components and electronics is IoT. IoT has been recognized as the promise of technology today and are well-defined as things belonging to the Internet aiding to the accessibility and supply of all of real-time data. Millions of devices are expected to be connected or networked into the IoT structure which requires massive dissemination of networks as well as the method of converting raw data into meaningful interpretations. The form of communication that is experienced now is either human-human or human-device, but Internet of Things (IoT) assures a promising type of communication, that is machine-machine (M2M). More influential smart phones, appliances, tablets and the applications that are similarly rich and powerful available for each, will enable buyers and business customers to interact seamlessly with companies altering the business processes. With businesses realizing that great digital experience to customers is no longer nice to have, but it is a make-or-break point for business has led to the integration and wider acceptance of Internet of Things. This chapter gives an idea of Internet of Things (IoT), the technologies that enable the implementation of IoT, the objectives and the future vision of IoT, the general layered architecture of IoT and the future growth challenges. This chapter also discusses the various applications of IoT and two case studies.
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TL;DR: Recent and in-depth research of relevant works that deal with several intelligent techniques and their applied intrusion detection architectures in computer networks with emphasis on the Internet of Things and machine learning are aimed at.
299 citations
TL;DR: The state-of-the-art of the network architecture topology and applications in the IoT based healthcare solutions, including privacy, authentication, energy, power, resource management, Quality of Services and the real-time wireless health monitoring are reviewed.
217 citations
01 Jan 2020
TL;DR: This project presents the methodology for monitoring patients remotely using GSM and embedded technology to remove the burden of monitoring patients health from doctor’s head.
Abstract: Healthcare is given the extreme importance now a- days by each country with the advent of the novel corona virus. So in this aspect, an IoT based health monitoring system is the best solution for such an epidemic. Internet of Things (IoT) is the new revolution of internet which is the growing research area especially in the health care. With the increase in use of wearable sensors and the smart phones, these remote health care monitoring has evolved in such a pace. IoT monitoring of health helps in preventing the spread of disease as well as to get a proper diagnosis of the state of health, even if the doctor is at far distance. In this paper, a portable physiological checking framework is displayed, which can constantly screen the patients heartbeat, temperature and other basic parameters of the room. We proposed a nonstop checking and control instrument to screen the patient condition and store the patient informations in server utilizing Wi-Fi Module based remote correspondence. A remote health monitoring system using IoT is proposed where the authorized personal can access these data stored using any IoT platform and based on these values received, the diseases are diagnosed by the doctors from a distance.
24 citations
Cites background from "A Survey on Internet of Things: Cas..."
...In IOT based framework, subtle parts of the patient flourishing can be seen by different clients [4]....
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12 citations
TL;DR: The proposed protocol is extremely effective to secure the sensing information of the device node wherever they are moving and additionally, it is accustomed to offer secure data transmission between the node and web client.
Abstract: Today, Wireless Sensor Network (WSN) is widely used for general purposes. With the propagation of the Internet of Things (IoT), security issues arise wherever the healthcare devices are used exclusively for data transfer protocols. These network protocols are easily susceptible to attack. Although it is problematic to save sensing information from the body sensors, the loss of signal messages will often occur in an IoT environment. Thus security is a supreme requirement in health care applications, especially in the case of patient privacy. In this paper, an IoT health care communication system is designed to implement the integration using CoAP based Secure-aware Mobility Management Protocol (CoSMP) in Wireless Body Area Network (WBAN) based IoT environment. The proposed protocol is extremely effective to secure the sensing information of the device node wherever they are moving and additionally, it is accustomed to offer secure data transmission between the node and web client. Our protocol establishes a pairwise key between the networks according to an exact algorithm, namely Advanced Encryption Standard Cipher Feedback Message Authentication Code (AES-CFMAC) algorithm, and handover operation could be authenticated by Elliptic Curve Digital Signature Algorithm (ECDSA). Numerical analysis and performance result imposes the proposed scheme is simulated in terms of network delay and handover delay. Experimental results depict that the proposed protocol has been compared with the previous protocol in terms of security and mobility management. Hence, the numerical result would be evaluated based on the measures of Total Transmission Delay (TTD) on the variation of wireless link delay, sensor node delay, link failure probability delay, hop count between the gateway and WMMS in the network delay with the low delay of 303.55, 1.6, 700 and 80 in ms respectively and also performance measures of Handover Delay (HD) achieves 1212.5, 1.212, 49.46 and 1453.8 in ms respectively. The percentage in terms of using performance measures of TTD and HD is compared between proposed and existing schemes resulted in (COMP = 0.3632%, COMP-G = 0.2712 % and COSMP = 0.2532%) and (COMP = 0.3188%, COMP-G = 0.2421 % and COSMP = 0.2133%) respectively.
11 citations
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TL;DR: In this article, the authors present a cloud centric vision for worldwide implementation of Internet of Things (IoT) and present a Cloud implementation using Aneka, which is based on interaction of private and public Clouds, and conclude their IoT vision by expanding on the need for convergence of WSN, the Internet and distributed computing directed at technological research community.
9,593 citations
01 Jan 2011
2,025 citations
17 Dec 2012
TL;DR: This paper addresses the existing development trends, the generic architecture of IoT, its distinguishing features and possible future applications, and forecast the key challenges associated with the development of IoT.
Abstract: The Internet is continuously changing and evolving. The main communication form of present Internet is human-human. The Internet of Things (IoT) can be considered as the future evaluation of the Internet that realizes machine-to-machine (M2M) learning. Thus, IoT provides connectivity for everyone and everything. The IoT embeds some intelligence in Internet-connected objects to communicate, exchange information, take decisions, invoke actions and provide amazing services. This paper addresses the existing development trends, the generic architecture of IoT, its distinguishing features and possible future applications. This paper also forecast the key challenges associated with the development of IoT. The IoT is getting increasing popularity for academia, industry as well as government that has the potential to bring significant personal, professional and economic benefits.
1,106 citations
12 Apr 2010
TL;DR: Through the combination of KIT and Closed Loop Healthcare, a central AAL paradigm can be realized through the IoT, where the elderly live in their homes with smart objects, thus smart homes, communicating to the outside world in an intelligent and goal-orientated manner.
Abstract: The Internet of Things (IoT) is the logical further development of today’s Internet. Technological advancements lead to smart objects being capable of identifying, locating, sensing and connecting and thus leading to new forms of communication between people and things and things themselves. Ambient Assisted Living (AAL) encompasses technical systems to support elderly people in their daily routine to allow an independent and safe lifestyle as long as possible. Keep In Touch (KIT) uses smart objects and technologies (Near Field Communication and Radio Frequency Identification) to facilitate telemonitoring processes. Closed Loop Healthcare Services take use of KIT technology and are capable of processing relevant data and establishing communication channels between elderly people and their environment and different groups of care-givers (physicians, relatives, mobile care providers). The combination of KIT technology (smart objects) and Closed Loop Healthcare Services results in an applied IoT infrastructure for AAL scenarios. Already applied IoT and AAL applications in telemonitoring and medication intake compliance projects show that these applications are useful and accepted by the elderly and that the developed infrastructure enables a new form of communication between people and people, people-to-people (P2P) communication. The personal communication between elderly people, their environment and relevant groups of care givers is an important aspect in AAL. Through the combination of KIT and Closed Loop Healthcare, a central AAL paradigm can be realized through the IoT, where the elderly live in their homes with smart objects, thus smart homes, communicating to the outside world in an intelligent and goal-orientated manner.
506 citations