Editorial: Special issue on Internet of Things: convergence of sensing, networking, and web technologies

International audienc

On the feasibility of attribute-based encryption on Internet of Things devices

Attribute-based encryption (ABE) could be an effective cryptographic tool for the secure management of Internet of Things (IoT) devices, but its feasibility in the IoT has been under-investigated thus far. This article explores such feasibility for well-known IoT platforms, namely, Intel Galileo Gen 2, Intel Edison, Raspberry pi 1 model B, and Raspberry pi zero, and concludes that adopting ABE in the IoT is indeed feasible

Assigning UPDRS Scores in the Leg Agility Task of Parkinsonians: Can It Be Done through BSN-based Kinematic Variables?

In this paper, by characterizing the Leg Agility (LA) task, which contributes to the evaluation of the degree of severity of the Parkinson's Disease (PD), through kinematic variables (including the angular amplitude and speed of thighs' motion), we investigate the link between these variables and Unified Parkinson's Disease Rating Scale (UPDRS) scores. Our investigation relies on the use of a few body-worn wireless inertial nodes and represents a first step in the design of a portable system, amenable to be integrated in Internet of Things (IoT) scenarios, for automatic detection of the degree of severity (in terms of UPDRS score) of PD. The experimental investigation is carried out considering 24 PD patients.Comment: 10 page

RANCANG BANGUN ALAT MONITORING RUNNING HOURS, ARUS DAN TEGANGAN PADA MOTOR VERTIKAL CSU-1 DI DERMAGA PT PETROKIMIA GRESIK MENGGUNAKAN MIKROKONTROLLER BERBASIS INTERNET of THINGS (IoT)

Selama ini pihak maintenance listrik kesulitan untuk mengontrol kondisi motor vertikal CSU-1 di Dermaga PT PETROKIMIA GRESIK karena letaknya yang membahayakan dan sulit dijangkau, juga tidak mempunyai logbook history kontrol motor, sehingga harus mengecek langsung ke lapangan dengan peralatan listrik secara manual. Penelitian ini bertujuan untuk memberikan informasi mengenai hasil monitoring motor vertikal CSU-1. Sistem monitoring ini dilengkapi dengan sensor running hours, pengukuran arus dan tegangan yang dirancang dengan menggunakan mikrokontroller yang dihubungkan ke komputer melalui modul WEMOS D1 yang berbasis sistem Internet of Things (IoT). Pengontrolan ini terkoneksikan oleh jaringan internet dan mengkonfigurasikan pada server yang akan diteruskan pada website. Dari penelitian ini diharapkan dapat memonitoring dan mengontrol running hours, arus, dan tegangan motor vertikal CSU-1 secara real time untuk memudahkan pihak maintenance listrik maupun pihak operator (user)

Analysis of IoT Growth and Applications in Real World

The Internet of things (IOT) is the inter-networking of physical devices, vehicles (also referred to as "connected devices" and "smart devices"), buildings, and other items embedded with electronics, software, sensors, actuators, and network connectivity that enable these objects to collect and exchange data. The IOT Mainly uses the connectivity of devices system and services that beyond the machine to machine communication. Internet of thing defined the IOT as the infrastructure of the information society. The main objective of this paper is to provide an overview of Internet of Things, growth, and their usages in our daily life

Alat Deteksi Kebocoran Gas Rumah Tangga Berbasis Internet of Things

Teknologi yang berkembang pesat menghasilkan inovasi-inovasi baru yang mampu membantu memudahkan pekerjaan manusia. Dan saat ini semua informasi dapat diakses dengan mudah dan cepat dan menghasilkan data yang akurat. Inilah salh satu konsep dari Internet of thins, yaitu segala hal yang terhubung dengan internet. Dari sinilah ide awal tersebut muncul. Dengan adanya kasus kebakaran rumah yang disebabkan oleh kebocoran gas rumah tangga. Maka terciptalah alat ini, yang bekerja dengan memanfaatkan jaringan dari internet. Alat ini mampu ngirimkan sinyal ke telepon pintar (smartphone) kita, saat terjadi kebocoran gas rumah tangga

Integrating Internet of Things and EHealth Solutions for Students’ Healthcare

Apple Incorporated’s recent announcement of its entry device – The Apple Watch™ to the wearable’s market can arguably be said to put a final seal of authenticity on wearables. The inevitable ubiquity of wearable devices for eHealth monitoring is a fact soon to be reckoned with. Access to the physiological information provided by the wearables through the ‘6A Connectivity Concept’ of IoT will find positive applications in various fields, most especially in the eHealth and mobile-Health domain. The state of health of a student is key in determining the student’s overall academic performance. Health-related issues usually affect the motivation and ability of students to learn. Therefore it is necessary to provide better health services for students in their various schools and institutions. This paper is a study of the integration of Internet of Things (IoT) and eHealth solutions to effectively manage and monitor university students’ health. One of IoT’s main technologies in healthcare is Radio Frequency IDentification (RFID) technology. In this study, we show how RFID technology is used to implement an eHealth solution known as Electronic Medical Records (EMR) for managing students’ health information (which includes students’ medical history, prescriptions, laboratory results, Electrocardiography (ECG) results, blood pressure results, and vital signs). This paper also studies wearable devices for monitoring students that are at risk for high blood pressure, which can be due to intense stress, overweight conditions, and family history of high blood pressure

Integrating Internet of Things and EHealth Solutions for Students’ Healthcare

Apple Incorporated’s recent announcement of its entry device – The Apple Watch™ to the wearable’s market can arguably be said to put a final seal of authenticity on wearables. The inevitable ubiquity of wearable devices for eHealth monitoring is a fact soon to be reckoned with. Access to the physiological information provided by the wearables through the ‘6A Connectivity Concept’ of IoT will find positive applications in various fields, most especially in the eHealth and mobile-Health domain. The state of health of a student is key in determining the student’s overall academic performance. Health-related issues usually affect the motivation and ability of students to learn. Therefore it is necessary to provide better health services for students in their various schools and institutions. This paper is a study of the integration of Internet of Things (IoT) and eHealth solutions to effectively manage and monitor university students’ health. One of IoT’s main technologies in healthcare is Radio Frequency IDentification (RFID) technology. In this study, we show how RFID technology is used to implement an eHealth solution known as Electronic Medical Records (EMR) for managing students’ health information (which includes students’ medical history, prescriptions, laboratory results, Electrocardiography (ECG) results, blood pressure results, and vital signs). This paper also studies wearable devices for monitoring students that are at risk for high blood pressure, which can be due to intense stress, overweight conditions, and family history of high blood pressure