background preloader

Internet of Things Consortium

Internet of Things Consortium

les plateformes d'information Platform/amee-platform Our Vision: "Environmental Intelligence, Everywhere. We believe that information about our environmental impact can and should be available everywhere, to help us better measure and manage resources. Platform/arkessa-platform Arkessa enables remote devices to operate, be monitored, managed and controlled as though they were connected directly to your desktop, tablet or smart phone. Platform/arrayent The Arrayent Connect Platform is an "IoT platform that enables you to connect your products to value-added smartphone and web applications with unprecedented low-cost and simplicity." Platform/axeda-platform From their site: Axeda is the leading cloud platform provider for connected products and M2M applications. Platform/bugswarm Platform/carriots-cloud-platform Our goal at Carriots is to help you build applications for the Internet of Things. Platform/evrythng-platform Because every physical thing can be digitally connected. Platform/grovestreams Platform/hp-cense-platform

How the “internet of things” will replace the web - Quartz The second in a series. We’ve already written about why 2014 is really, finally the year that the “internet of things”—that effort to remotely control every object on earth—becomes visible in our everyday lives. But most of us don’t recognize just how far the internet of things will go, from souped-up gadgets that track our every move to a world that predicts our actions and emotions. In this way, the internet of things will become more central to society than the internet as we know it today. The internet of things will create a world of “invisible buttons” Rooms that know when you’re present and how you’re feeling can illuminate themselves appropriately Philips The pioneer species of the internet of things is the smartphone. That smartphones gather traffic data without their users ever being aware that they’re doing so shows how the internet of things replaces the internet-related actions we already know—click a button, navigate a webpage—with context.

Internet of Things The Internet of Things (IoT) is the network of physical objects or "things" embedded with electronics, software, sensors and connectivity to enable it to achieve greater value and service by exchanging data with the manufacturer, operator and/or other connected devices. Each thing is uniquely identifiable through its embedded computing system but is able to interoperate within the existing Internet infrastructure. The term “Internet of Things” was first documented by a British visionary, Kevin Ashton, in 1999.[1] Typically, IoT is expected to offer advanced connectivity of devices, systems, and services that goes beyond machine-to-machine communications (M2M) and covers a variety of protocols, domains, and applications.[2] The interconnection of these embedded devices (including smart objects), is expected to usher in automation in nearly all fields, while also enabling advanced applications like a Smart Grid.[3] Early history[edit] In its original interpretation,[when?] Media[edit]

NanoService - Sensinode Ltd Sensinode’s NanoService™ solution provides end-to-end web services optimized for the unique constraints of M2M deployments. Features of NanoServices include: high efficiency, resource discovery and management, eventing, semantic naming, semantic search and end-to-end security. The NanoService Platform (NSP) is a flexible and highly-scalable product designed to enable the deployment of challenging M2M applications on private server, private cloud or public cloud environments. It provides a directory and semantic lookup of all M2M nodes and resources in the system, provides transparent proxy services between the large-resource traditional Internet and constrained-resource protocols, and supports an eventing model that is critical to the effectiveness of Embedded Web applications. Complete graphical Reference Applications and Java SDKs with source code, along with device libraries, decreases time to market for both M2M device and Web Apps. NanoService™ Platform Product Flyer (PDF)

Forget the Internet of Things: Here Comes the ‘Internet of Cars’ | Opinion Illustration: Ross Patton/Wired What if large groups of people could go beyond ridesharing – replacing traditional car ownership altogether through on-demand access to the cars they want: a convertible in the summer, an SUV for winter ski trips? What if driving skills could be computed as a score that warned us of bad drivers nearby – real time, on the road – also enabling navigation systems to offer safer alternative routes? Imagine if we could get rid of traffic jams and accidents altogether. What if automakers could subsidize our car purchases by working with telecommunications and other companies that want to capitalize on the lifetime revenue opportunity of a connected driver? Whether you embrace or object to these scenarios, they’re not too far away. Recognized as a leading expert on the evolution of the automotive industry and the connected vehicle, Thilo Koslowski is Vice President, Distinguished Analyst, and founder of the Automotive practice at Gartner Inc. But what is it?

The Internet of Things and Education | ETC blog With the Internet connecting us to many things (media, photos, information, etc.) can it also connect us to physical objects? Can we launch applications on our computer by just touching a physical object? Can one physical object talk to another physical object through an Internet connect and command it to do a physical act or feed it data? The answer is yes and this phenomena is called “The Internet of Things”. What is exactly the Internet of Things? According to Wikipedia the Internet of Things “refers to uniquely identifiable objects (things) and their virtual representations in an Internet-like structure. So how does the Internet of Things exactly work? If students are collecting data out in the field for research, tagging physical objects to find and analyze data about the object (and have to feed into other programs for analysis) is one way the Internet of Things can be used in education. Say a student created a work of art.

Internet of Everything The Internet of Everything (IoE) should be understood as the next evolutionary stage of the Internet of Things (IoT) – that is, a technology concept that sees previously unconnected objects and processes being converged with the ones that are digital-first by their nature. This all-encompassing convergence of physical and digital domains is set to disrupt individual organizations and entire industries like nothing before. On one hand, the IoE is being enabled by advancements with standardized, ultra-low-power wireless technologies. Likes of Bluetooth and ZigBee have proven instrumental in driving sensor and node implementations, while Wi-Fi and cellular connectivity serve as a backbone for transferring the collected data to the cloud. On the other hand, the emergence of Big Data and associated analytics are taking the potential value of the wirelessly-enabled IoE applications and services to a whole new level. View more research in this service...

The Internet of Things In most organizations, information travels along familiar routes. Proprietary information is lodged in databases and analyzed in reports and then rises up the management chain. Information also originates externally—gathered from public sources, harvested from the Internet, or purchased from information suppliers. But the predictable pathways of information are changing: the physical world itself is becoming a type of information system. In what’s called the Internet of Things, sensors and actuators embedded in physical objects—from roadways to pacemakers—are linked through wired and wireless networks, often using the same Internet Protocol (IP) that connects the Internet. These networks churn out huge volumes of data that flow to computers for analysis. Pill-shaped microcameras already traverse the human digestive tract and send back thousands of images to pinpoint sources of illness. Podcast When virtual-world capabilities meet real-world businesses Exhibit Enlarge 1. 2. 3. 1. 2. 3.

Internet of Things - Architecture — IOT-A: Internet of Things Architecture The Architectural Reference Model (ARM), presented in this book by the members of the IoT-A project team makes it possible to connect vertically closed systems, architectures and application areas so as to create open interoperable systems and integrated environments and platforms. It constitutes a foundation from which software companies can capitalize on the benefits of developing consumer-oriented platforms including hardware, software and services. The material is structured in two parts. Part A introduces the general concepts developed for and applied in the ARM. It is aimed at end users who want to use IoT technologies, managers interested in understanding the opportunities generated by these novel technologies, and system architects who are interested in an overview of the underlying basic models. It also includes several case studies to illustrate how the ARM has been used in real-life scenarios.

Liste des entreprises utlisant l'internet des objets by chopinjeremy Apr 2

Related: