Rethinking the Internet of Things: A Scalable Approach to Connecting Everything

Apress is proud to announce that Rethinking the Internet of Things was a 2014 Jolt Award Finalist, the highest honor for a programming book. And the amazing part is that there is no code in the book. Over the next decade, most devices connected to the Internet will not be used by people in the familiar way that personal computers, tablets and smart phones are. Billions of interconnected devices will be monitoring the environment, transportation systems, factories, farms, forests, utilities, soil and weather conditions, oceans and resources. Many of these sensors and actuators will be networked into autonomous sets, with much of the information being exchanged machine-to-machine directly and without human involvement. Machine-to-machine communications are typically terse. Most sensors and actuators will report or act upon small pieces of information - "chirps". Burdening these devices with current network protocol stacks is inefficient, unnecessary and unduly increases their cost of ownership. This must change. The architecture of the Internet of Things must evolve now by incorporating simpler protocols toward at the edges of the network, or remain forever inefficient. Rethinking the Internet of Things describes reasons why we must rethink current approaches to the Internet of Things. Appropriate architectures that will coexist with existing networking protocols are described in detail. An architecture comprised of integrator functions, propagator nodes, and end devices, along with their interactions, is explored

Pratiche Innovative nell'e-Health. I Wearable devices.

Recently, the possibility of connecting smart devices has grown, leading to the ‘Internet of Things’ (IoT); that is, the networked connections between objects that can exchange data. As the number of connected humans and non-humans grows, the IoT is evolving into the ‘Internet of Everything’ (IoE), connecting processes, people, and data. Studies on the IoE are in their infancy, and the societal impacts of such applications are still rarely recognized. This paper aims to understand the role of the IoE in service provision in the healthcare business. By carrying out an exploratory investigation on innovative wearable devices in health, the authors address the effects of ubiquitous technologies in terms of actors’ engagement and service innovation as the key novelties arising from IoE in healthcare

The Role of the Internet of Things in Health Care: A Systematic and Comprehensive Study

The Internet of Things (IoT) is becoming an emerging trend and has significant potential to replace other technologies, where researchers consider it as the future of the internet. It has given tremendous support and become the building blocks in the development of important cyber-physical systems and it is being severed in a variety of application domains, including healthcare. A methodological evolution of the Internet of Things, enabled it to extend to the physical world beyond the electronic world by connecting miscellaneous devices through the internet, thus making everything is connected. In recent years it has gained higher attention for its potential to alleviate the strain on the healthcare sector caused by the rising and aging population along with the increase in chronic diseases and global pandemics. This paper surveys about various usages of IoT healthcare technologies and reviews the state of the art services and applications, recent trends in IoT based healthcare solutions, and various challenges posed including security and privacy issues, which researchers, service providers and end users need to pay higher attention. Further, this paper discusses how innovative IoT enabled technologies like cloud computing, fog computing, blockchain, and big data can be used to leverage modern healthcare facilities and mitigate the burden on healthcare resources

A novel approach to sensor implementation for healthcare systems using internet of things

The Internet of Things is touching all spheres of life, be it in connecting cities together, making agricultural farms and health care smarter, predictable and more secure, and in industries it is set out to bring about changes that are similar to those of the industrial revolution that took place in the 19th and 20th century. It is estimated by pundits that in next 5 to 10 years, the Internet of Things will become a 50 billion dollar industry by itself, encompassing everything that it touches and goes upon. In order to get healthcare enabled into the IoT ecosystem, the sensors and the actuators related to it must be able to support the protocols that is required for the acquisition, processing and storing of data from the sensors to the IoT based infrastructure. Here, for a proposed model for a health care monitor using Internet of Things, the sensors characteristics, working principal, the protocol associated with it, its internal mechanism, and the results obtained when interfaced using a Raspberry Pi arediscussed, laying the framework for the future of the sensors that need to be adapted to stay relevant in the future, when IoT transitions from concept to reality

The Internet of Everything:Smart things and their impact on business models

The internet of everything (IoE), connecting people, organizations and smart things, promises to fundamentally change how we live, work and interact, and it may redefine a wide range of industry sectors. This conceptual paper aims to develop a vision of how the IoE may alter business models and the ways in which individuals and organizations create value. We review literature on networked business models and service ecosystems, and show that a clearer understanding is needed of how the IoE will impact on the ways that organizations go about their business at the micro, meso and macro levels. Combining this with an inductive, vignette-based approach, we present a new taxonomy of smart things based on their capabilities and their connectivity. We derive their implications for business models and conclude the paper with propositions that form a research agenda for business researchers

Planet Netsweeper

Internet filtering technologies play a critical role in shaping access to information online. Whether we are connecting to the Internet from our homes, coffee shops, libraries, or places of work, software that inspects, manages, and/or blocks our communications has become commonplace. When used at the level of large, consumer-facing Internet Service Providers (ISPs), Internet filtering technologies can have significant human rights impacts. A growing number of governments employ Internet filtering systems at this scale in order to undertake national-level censorship of the Internet. Filtered content ranges from pornography, hate speech, and speech promoting or inciting violence, to political opposition websites, news websites, websites affiliated with various religions, and everything in-between. The growing responsibilities among network operators to filter content, either within private enterprises or on public networks, have given rise to a large and lucrative market. One industry report estimated the value of the web content filtering market at $3.8 billion USD by 2022. While network operators can manually configure their infrastructure to block specific websites or applications, the task can be time- consuming, complicated, and ineffective. Internet filtering companies provide professional services to ISPs and other clients to take care of this responsibility. Typically, Internet filtering companies dynamically categorize Internet resources and then let their clients choose pre-selected content categories or services that they wish to block. Customers can also add custom lists of their own to content that is filtered or blocked. In the hands of authoritarian regimes, such professional services can limit the ability of citizens to communicate freely and help impose opaque and unaccountable controls on the public sphere

The Ownership of the Internet and the World Wide Web in Vermont

The internet is an interesting case, since it was created entirely with taxpayer\u27s money by DARPA, while the world wide web was created at CERN in Switzerland and placed into the public domain voluntarily in 1993. The internet and web have many features of a commons, and many people refer to the internet commons . Kubiszewski (pronounced cube- ih-shefski) explores the intricacies of the internet and world wide web to determine if internet companies are extracting economic rent from the public and how it could be recovered. She finds that companies are making a substantial profit by utilizing a resource that was developed by a collective whole and not through their own efforts. In particular, services of ISPs connecting people to the web should be subject to rent as well as the provision of web domain names. Kubiszewski determined that the average profit for Fortune 1000 companies is 7% and everything above that could be considered economic rent. She finds that economic rent from public telecoms to be $17 million, private ISPs to be$3.3 million, and domain names $9.3 million. Totaling up all the economic rent, we find that economic rent owed to Vermonters is approximately$30 million per year. Instead of dividing this money into equal dividend of about $50 per person, which promotes consumption and encourages the investment into private goods, the money would be placed into a trust with the primary purpose of supporting and furthering research and intellectual development in an open forum

Analytics of IoT Streaming Data using Modified New Pattern Mining Algorithm

In the era of information technology, everything we are using in the everyday life is represented in form of information. Transportation, parking, traffic, pollution are some examples of hundreds of infrastructure systems with which we act every day. By using information technologies combined with communication, it becomes very easy to represent all details even the tiniest parts of these fields in forms of data. Furthermore, the Internet of things (IoT) plays a very important role in connecting physical objects with electronics, software, and sensors. Based on that, smart cites have been modeled and implemented in thousands place over all the world; In these cities, all smart systems in different fields like transportation networks, pollution,traffic,airlines, etc. are showed in form of numbers and strings of characters.This paper represents the problems occur in this type of methods with little bit solution of them by new modified algorithm

Scan to BIM for 3D reconstruction of the papal basilica of saint Francis in Assisi In Italy

The historical building heritage, present in the most of Italian cities centres, is, as part of the construction sector, a working potential, but unfortunately it requires planning of more complex and problematic interventions. However, policies to support on the existing interventions, together with a growing sensitivity for the recovery of assets, determine the need to implement specific studies and to analyse the specific problems of each site. The purpose of this paper is to illustrate the methodology and the results obtained from integrated laser scanning activity in order to have precious architectural information useful not only from the cultural heritage point of view but also to construct more operative and powerful tools, such as BIM (Building Information Modelling) aimed to the management of this cultural heritage. The Papal Basilica and the Sacred Convent of Saint Francis in Assisi in Italy are, in fact, characterized by unique and complex peculiarities, which require a detailed knowledge of the sites themselves to ensure visitor’s security and safety. For such a project, we have to take in account all the people and personnel normally present in the site, visitors with disabilities and finally the needs for cultural heritage preservation and protection. This aim can be reached using integrated systems and new technologies, such as Internet of Everything (IoE), capable of connecting people, things (smart sensors, devices and actuators; mobile terminals; wearable devices; etc.), data/information/knowledge and processes to reach the desired goals. The IoE system must implement and support an Integrated Multidisciplinary Model for Security and Safety Management (IMMSSM) for the specific context, using a multidisciplinary approach