527,849 research outputs found
Challenges of Internet of Things and Big Data Integration
The Internet of Things anticipates the conjunction of physical gadgets to the
In-ternet and their access to wireless sensor data which makes it expedient to
restrain the physical world. Big Data convergence has put multifarious new
opportunities ahead of business ventures to get into a new market or enhance
their operations in the current market. considering the existing techniques and
technologies, it is probably safe to say that the best solution is to use big
data tools to provide an analytical solution to the Internet of Things. Based
on the current technology deployment and adoption trends, it is envisioned that
the Internet of Things is the technology of the future, while to-day's
real-world devices can provide real and valuable analytics, and people in the
real world use many IoT devices. Despite all the advertisements that companies
offer in connection with the Internet of Things, you as a liable consumer, have
the right to be suspicious about IoT advertise-ments. The primary question is:
What is the promise of the Internet of things con-cerning reality and what are
the prospects for the future.Comment: Proceedings of the International Conference on International
Conference on Emerging Technologies in Computing 2018 (iCETiC '18), 23rd
-24th August, 2018, at London Metropolitan University, London, UK, Published
by Springer-Verla
MANET Network in Internet of Things System
In the current world of technology, various physical things can be used for facilitation of a human work. That is why the Internet of Things,an innovative technology and a good solution which allows the connection of the physical things with the digital world through the use of heterogeneous networks and communication technologies, is used. The Internet of Things in smart environments interacts with wireless sensor network (WSN) and mobile ad‐hoc network (MANET), making it even more attractive to the users and economically successful. Interaction between wireless sensor and mobile ad‐hoc networks with the Internet of Things allows the creation of a new MANET‐IoT systems and IT‐based networks. Such the system gives the greater mobility for a user and reduces deployment costs of the network. However, at the same time it opens new challenging issues in its networking aspects as well. In this work, the authors propose a routing solution for the Internet of Things system using a combination of MANET protocols and WSN routing principles. The presented results of solution\u27s investigation provide an effective approach to efficient energy consumption in the global MANET‐IoT system. And that is a step forward to a reliable provision of services over global Future Internet infrastructure
Security Awareness Model for Artificial Intelligence and Internet of Things
With human engagement replacing artificial intelligence in the provision of services, the position of intelligence systems is rapidly changing. The Internet of Things (IOT) plays a prominent role in these variations as it is a cutting-edge and developing technology that connects physical objects to the virtual world, enabling anytime, everywhere connectivity for anything. A technology known as the Internet of Things (IOT) enables the networked connection and data transfer of physical objects, people, gadgets, cars, and other things. IOT eliminates the need for computer-human contact by speaking directly to the user.This encourages increased communication between entities as a result. It can enhance the fundamental services provided in the industries of transportation, banking, healthcare, and education. Recent analyses have shown that the Internet of Things (IOT) and its related components are very susceptible to security vulnerabilities. Using artificial intelligence approaches, IOT security issues can be rectified (AI). AI develops crucial apps that enable data flow in an IoT environment. Intelligent transmission technique
Modular and generic IoT management on the cloud
Cloud computing and Internet of Things encompass various physical devices that generate and exchange data with services promoting the integration between the physical world and computer-based systems. This work presents a novel Future Internet cloud service for data collection from Internet of Things devices in an automatic, generalized and modular way. It includes a flexible API for managing devices, users and permissions by mapping data to users, publish and subscribe context data as well as storage capabilities and data processing in the form of NoSQL big data. The contributions of this work include the on the fly data collection from devices that is stored in cloud scalable databases, the vendor agnostic Internet of Things device connectivity (since it is designed to be flexible and to support device heterogeneity), and finally the modularity of the event based publish/subscribe service for context oriented data that could be easily utilized by third party services without worrying about how data are collected, stored and managed
MOSDEN: An Internet of Things Middleware for Resource Constrained Mobile Devices
The Internet of Things (IoT) is part of Future Internet and will comprise
many billions of Internet Connected Objects (ICO) or `things' where things can
sense, communicate, compute and potentially actuate as well as have
intelligence, multi-modal interfaces, physical/ virtual identities and
attributes. Collecting data from these objects is an important task as it
allows software systems to understand the environment better. Many different
hardware devices may involve in the process of collecting and uploading sensor
data to the cloud where complex processing can occur. Further, we cannot expect
all these objects to be connected to the computers due to technical and
economical reasons. Therefore, we should be able to utilize resource
constrained devices to collect data from these ICOs. On the other hand, it is
critical to process the collected sensor data before sending them to the cloud
to make sure the sustainability of the infrastructure due to energy
constraints. This requires to move the sensor data processing tasks towards the
resource constrained computational devices (e.g. mobile phones). In this paper,
we propose Mobile Sensor Data Processing Engine (MOSDEN), an plug-in-based IoT
middleware for mobile devices, that allows to collect and process sensor data
without programming efforts. Our architecture also supports sensing as a
service model. We present the results of the evaluations that demonstrate its
suitability towards real world deployments. Our proposed middleware is built on
Android platform
Monitoring of the medication distribution and the refrigeration temperature in a pharmacy based on internet of things (IoT) technology
Abstract: For the past 15 years since its appearance, Internet of Things (IoT) technology has been leading the planet towards a smart world where all devices and physical objects, referred to as “things”, will be connected via electronic sensors through the Internet. The distribution of medication to patients at a pharmacy in certain regions is still very traditional and outdated. Patients wait for a long time in queues to receive their medications, this is mostly due to the absence of an efficient distribution system. Also, the refrigeration temperature within several pharmacies is a huge problem, as medications must be kept at a constant temperature for an optimal results..
Keynote talk: Augmented, adaptive, accessible, and inclusive things
In this new age of the Internet of Things (IoT) people and things are increasingly immersed in a computing environment that is aimed to simplify and improve daily activities. The Web of Things (WoT) is near to become a W3C Recommendation with the aim to support semantic interoperability across IoT platforms by providing a common interaction model independent of the underlying protocols. In this talk, I will illustrate the main principles of the WoT paradigm and then I will discuss the issue of Accessibility. Following on from the WoT concept of Things as virtual representations of physical digital things and also non-digital things, I will introduce an approach where we envision an Adaptive Web of Things as a mean to increase accessibility and usability of real world objects. The idea is that through the virtualization of physical objects, even objects which are not natively accessible can be augmented to become accessible and inclusive if proper adaptations are performed in order to fit the user\u2019s needs
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