In this presentation, Adhirai introduces the concept of SMAC and associated trends. Adhirai's interest area lies in "Pure play" systems particularly those in automobiles.
The document discusses the Internet of Things (IoT), which connects physical devices to the internet and to each other. It provides definitions and descriptions of IoT, trends in IoT such as security, standards, hardware, software, and analytics. The document also outlines an intern's areas of interest in IoT including mobile and smartphone integration with IoT technologies both locally and through cloud services.
Internet of things (IoT)- Introduction, Utilities, ApplicationsTarika Verma
The document discusses Internet of Things (IoT). It defines IoT as a platform where everyday devices become smarter through intelligent processing and informative communication, creating a connection between the digital and physical world. The document outlines the key functional blocks of IoT including devices, communication, services, management, security, and applications. It also discusses the utilities of IoT and provides examples of domain-specific IoT applications in areas like wireless sensor networks, aquaculture, distributed sensor networks, smart societies, and location-aware services. The document concludes by noting that IoT has added new potential to the internet by enabling communications between objects and humans to make a smarter planet.
This document discusses Internet of Things (IoT). It defines IoT as connecting physical objects to the Internet through sensors and giving them unique identifiers. It notes IoT has evolved from converging wireless technologies, microchips, and the Internet. The document lists common IoT protocols, domains, sensor types, and trends showing increasing connectivity. It predicts IoT will double connected devices by 2022 and expand to new domains. Finally, it expresses interest in using IoT for remote industrial maintenance, supply chain optimization, and infrastructure management to reduce costs.
The document discusses the Internet of Things (IoT), which refers to a wireless network connecting everyday objects through sensors. As IoT becomes more prevalent in 2014, more devices will be connected and able to communicate data to each other and data centers wirelessly. This will generate huge amounts of data requiring advanced analytics and cloud computing to extract insights. Successfully implementing IoT will require addressing challenges involving security, system architecture, data management, scaling, and privacy. The author intends to focus on security issues.
The document discusses the Internet of Things (IoT). It defines IoT as the network of physical objects embedded with electronics, software, and sensors to collect and exchange data. The document outlines the history of the internet and how everything has become digitized. It discusses current uses of IoT in areas like smart appliances, healthcare, wearables, and transportation. The future outlook is that each person will interact with 3,000 to 5,000 connected devices. However, increased connectivity also increases risks of terrorism and hacking of critical systems.
The Internet of Things (IoT) is one of not only fast growing technologies but those will impact our lives in the future. This session introduces how to think about IoT and develop future solutions based on it.
The document discusses the Internet of Things (IoT). It provides an introduction to IoT, including its history and growth. Some key advantages are that IoT can be implemented in many fields and saves time by being more efficient. However, disadvantages include potential loss of privacy and security, as well as complexity. Major challenges are power consumption and economic costs. The document outlines applications of IoT in smart cities, health monitoring, home automation, and industrial automation. It predicts that IoT will drive innovation and discusses trends, opportunities, and concludes with references.
The document discusses the Internet of Things (IoT), which connects physical devices to the internet and to each other. It provides definitions and descriptions of IoT, trends in IoT such as security, standards, hardware, software, and analytics. The document also outlines an intern's areas of interest in IoT including mobile and smartphone integration with IoT technologies both locally and through cloud services.
Internet of things (IoT)- Introduction, Utilities, ApplicationsTarika Verma
The document discusses Internet of Things (IoT). It defines IoT as a platform where everyday devices become smarter through intelligent processing and informative communication, creating a connection between the digital and physical world. The document outlines the key functional blocks of IoT including devices, communication, services, management, security, and applications. It also discusses the utilities of IoT and provides examples of domain-specific IoT applications in areas like wireless sensor networks, aquaculture, distributed sensor networks, smart societies, and location-aware services. The document concludes by noting that IoT has added new potential to the internet by enabling communications between objects and humans to make a smarter planet.
This document discusses Internet of Things (IoT). It defines IoT as connecting physical objects to the Internet through sensors and giving them unique identifiers. It notes IoT has evolved from converging wireless technologies, microchips, and the Internet. The document lists common IoT protocols, domains, sensor types, and trends showing increasing connectivity. It predicts IoT will double connected devices by 2022 and expand to new domains. Finally, it expresses interest in using IoT for remote industrial maintenance, supply chain optimization, and infrastructure management to reduce costs.
The document discusses the Internet of Things (IoT), which refers to a wireless network connecting everyday objects through sensors. As IoT becomes more prevalent in 2014, more devices will be connected and able to communicate data to each other and data centers wirelessly. This will generate huge amounts of data requiring advanced analytics and cloud computing to extract insights. Successfully implementing IoT will require addressing challenges involving security, system architecture, data management, scaling, and privacy. The author intends to focus on security issues.
The document discusses the Internet of Things (IoT). It defines IoT as the network of physical objects embedded with electronics, software, and sensors to collect and exchange data. The document outlines the history of the internet and how everything has become digitized. It discusses current uses of IoT in areas like smart appliances, healthcare, wearables, and transportation. The future outlook is that each person will interact with 3,000 to 5,000 connected devices. However, increased connectivity also increases risks of terrorism and hacking of critical systems.
The Internet of Things (IoT) is one of not only fast growing technologies but those will impact our lives in the future. This session introduces how to think about IoT and develop future solutions based on it.
The document discusses the Internet of Things (IoT). It provides an introduction to IoT, including its history and growth. Some key advantages are that IoT can be implemented in many fields and saves time by being more efficient. However, disadvantages include potential loss of privacy and security, as well as complexity. Major challenges are power consumption and economic costs. The document outlines applications of IoT in smart cities, health monitoring, home automation, and industrial automation. It predicts that IoT will drive innovation and discusses trends, opportunities, and concludes with references.
The document provides an introduction to the Internet of Things (IoT). It defines IoT as connecting physical objects via sensors to the internet, allowing data exchange without human interaction. Key enablers of IoT include cheap sensors, bandwidth, processing power, smartphones, and wireless coverage. Common applications areas are agriculture, smart homes, cities, manufacturing, and healthcare. The document outlines an IoT technology roadmap and lists resources for IoT products, services, companies and labs.
In this presentation, Adithya introduces the topic of IoT and associated trends. His interest area lies in application of IoT to do proactive fulfillment, reduce downtime through remote monitoring in the healthcare space.
The document discusses the future of the Internet of Things (IoT). It covers key topics such as future applications and challenges of IoT, trends in IoT, future job roles, and vision for the future of IoT. Some of the main points discussed include how IoT will transform industries like healthcare and automotive through applications like remote health monitoring and connected vehicles. However, security is a major challenge as more devices are connected. Other trends discussed are growth of smart cities and use of data and artificial intelligence. The future of IoT is seen as limitless with potential in new areas like manufacturing and opportunities for new types of jobs and business models.
IoT is a trending & booming topic in the tech world. Here is the PPT which talks about what is IoT, it's applications., benifits challenges and everything about IoT.
The Internet of Things (IoT) allows physical objects embedded with sensors and software to connect and exchange data over existing internet infrastructure. This enables remote monitoring and control of devices like appliances, vehicles, and industrial equipment, improving efficiency. The IoT has applications in consumer products, smart homes, manufacturing, infrastructure management, environmental monitoring, healthcare, transportation, and more. It creates opportunities to integrate physical systems with computer networks.
The Internet of Things (IoT) refers to the growing network of physical objects connected to the internet and able to send and receive data. IoT allows everyday objects to be controlled remotely by connecting them to the internet and other devices. Key components that enable IoT include sensors, connectivity, and integration of physical systems with human processes. IoT promises benefits like improved efficiency, universal connectivity of devices, and more data collection opportunities. While IoT faces challenges around security, scalability and standardization, its projected economic impact is estimated to be over $11 trillion by 2025.
In this presentation, Nikitha introduces the concept of IoT and associated trends.Her interest lies in developing centralized management systems to control IoT devices remotely
the small ppt on IOT.
i gave presentation on this topic which is very useful.
Iot is very big things to learn and it contains many of the things like sensors,Internet etc.
Internet of Things (IoT) - Slide Marvels, Top PowerPoint presentation design ...Slide Marvels
This is a small video done with Microsoft PowerPoint by the designers of Slide Marvels on the topic 'Internet of Things (IoT).
Slide Marvels (www.slidemarvels.com) is a leading Presentation Design Company having experience of many years. We are a professional team of presentation designers who have already worked in major consulting firms like McKinsey & Co., Boston Consulting Group and Deloitte to mentioned some of them.
Our passion is to build and design any type of PowerPoint presentations from pitch decks, team meeting, training documents up to webinar documents and more. We always design World Class presentation that you will be proud of.
www.slidemarvels.com
what is Internet of things(iot) & how does it workSara shall
a definition for the internet of things(IOT) and simple explanation about its mechanism. this ppt also show IOT life cycle, why IOT and IOT applications. It states also IOT disadvantages.
“The Internet of Things (IoT) is a system of interrelated computing devices, mechanical and digital machines, objects, animals or people that are provided with unique identifiers and the ability to transfer data over a network
The document discusses Internet of Things (IoT) and provides an overview in three main points:
1. IoT involves connecting physical objects/things to the internet so they can communicate and transfer data without human interaction. This allows the objects to collect and share information.
2. Current trends show efforts to connect 26 billion objects by 2020, with healthcare, transportation and manufacturing leading the way. Common communication methods for connecting objects include WiFi, Bluetooth, and Zigbee.
3. IoT provides benefits like real-time analytics and control, but also faces challenges regarding security, adoption rates, compatibility and power constraints. Main application areas include home automation, smart cities, manufacturing and automotive.
To put the future of the Internet of Things into prospective, we've compiled a list of the industry's latest trends and statistics.
To learn how CloudOne helps the world's best companies make their things for the Internet of Things, visit www.oncloudone.com.
The document discusses the Internet of Things (IoT). It defines IoT as the network of physical objects connected to the internet and able to communicate with other internet-enabled devices. It lists common communication methods like WiFi, Bluetooth, and Zigbee used to connect objects. Benefits include real-time marketing, analytics, optimization, and control of complex systems. Security, adoption rates, compatibility, power, and connectivity are challenges. Main application areas are home/building automation, smart cities, manufacturing, wearables, healthcare, and automotive. The document also discusses current IoT capabilities and Microsoft Azure as a platform for building IoT solutions and services.
This presentation helps high school students to get a firm basic understanding of the Internet of Things (IoT). Igniting innovation is central to this presentation.
This talk was delivered to students at Visvesvaraya Industrial and Technological Museum (VITM), Bangalore on Sep 15th 2015, the Engineer’s Day in India. The event is organized by VITM and IEEE Bangalore Chapter.
This document discusses the Internet of Things (IoT). It defines IoT as the network of physical objects embedded with electronics, software, and sensors that enables them to connect and exchange data. By 2020, it is estimated that 50 billion devices will be connected to the internet. IoT applications include smart appliances, healthcare devices, wearable technology, and various sensors. The document also discusses how IoT works, common security challenges, communication protocols, hardware tools, and best practices for securing IoT devices and data.
The document provides an overview of the Internet of Things (IoT). It defines IoT as the network of physical objects embedded with sensors that collect and exchange data. It discusses how IoT works by connecting devices through sensors, processors and communication hardware. Examples of applications include building automation, manufacturing, healthcare, transportation and more. The document also outlines some current technological challenges of IoT like scalability, standardization and security/privacy issues. It concludes with a discussion of the future prospects and criticisms of expanding IoT connectivity.
In this presentation, Divya introduces IoT and associated trends. Natasha is interested in IoT applications in the domains of smart cities and pollution reporting.
The document discusses airborne internet, which aims to provide high-speed wireless internet connection by placing aircraft in fixed paths over hundreds of cities. Three key points:
1) Airborne internet uses aircraft flying at around 15,500 meters to act as wireless hubs, connecting users on the ground via high-frequency signals between 28-38 GHz for lower latency and cost compared to satellite internet.
2) Implementation systems include planes designed by Angel Technologies and Aerovironment, as well as blimps from Sky Station International.
3) Advantages over existing systems include increased productivity, security, flexibility and broadband access for remote communities at a lower overall cost than satellite solutions.
The document summarizes Airborne Internet (AI), which provides high-speed wireless internet by placing aircraft equipped with networking equipment in fixed paths over cities. AI uses a HALO network and aircraft as hubs to transmit data from internet service providers to users within a 75 mile diameter range. It has advantages over satellite internet like lower latency, cost, and power requirements. The technology could deliver speeds of 25Mbps for businesses and 5Mbps for homes using frequencies between 28-38GHz.
Airborne Internet aims to provide high-speed wireless internet connectivity by placing aircraft in fixed flight paths overhead of hundreds of cities. The network would deliver speeds of around 25Mbps for business and 5Mbps for homes using aircraft flying at 51,000 feet. The Airborne Internet Consortium is a nonprofit that develops open standards for digital aviation communications over this airborne network, called HALO. Key applications include air traffic control tracking, in-flight monitoring, and providing internet access to passengers in aircraft.
The document provides an introduction to the Internet of Things (IoT). It defines IoT as connecting physical objects via sensors to the internet, allowing data exchange without human interaction. Key enablers of IoT include cheap sensors, bandwidth, processing power, smartphones, and wireless coverage. Common applications areas are agriculture, smart homes, cities, manufacturing, and healthcare. The document outlines an IoT technology roadmap and lists resources for IoT products, services, companies and labs.
In this presentation, Adithya introduces the topic of IoT and associated trends. His interest area lies in application of IoT to do proactive fulfillment, reduce downtime through remote monitoring in the healthcare space.
The document discusses the future of the Internet of Things (IoT). It covers key topics such as future applications and challenges of IoT, trends in IoT, future job roles, and vision for the future of IoT. Some of the main points discussed include how IoT will transform industries like healthcare and automotive through applications like remote health monitoring and connected vehicles. However, security is a major challenge as more devices are connected. Other trends discussed are growth of smart cities and use of data and artificial intelligence. The future of IoT is seen as limitless with potential in new areas like manufacturing and opportunities for new types of jobs and business models.
IoT is a trending & booming topic in the tech world. Here is the PPT which talks about what is IoT, it's applications., benifits challenges and everything about IoT.
The Internet of Things (IoT) allows physical objects embedded with sensors and software to connect and exchange data over existing internet infrastructure. This enables remote monitoring and control of devices like appliances, vehicles, and industrial equipment, improving efficiency. The IoT has applications in consumer products, smart homes, manufacturing, infrastructure management, environmental monitoring, healthcare, transportation, and more. It creates opportunities to integrate physical systems with computer networks.
The Internet of Things (IoT) refers to the growing network of physical objects connected to the internet and able to send and receive data. IoT allows everyday objects to be controlled remotely by connecting them to the internet and other devices. Key components that enable IoT include sensors, connectivity, and integration of physical systems with human processes. IoT promises benefits like improved efficiency, universal connectivity of devices, and more data collection opportunities. While IoT faces challenges around security, scalability and standardization, its projected economic impact is estimated to be over $11 trillion by 2025.
In this presentation, Nikitha introduces the concept of IoT and associated trends.Her interest lies in developing centralized management systems to control IoT devices remotely
the small ppt on IOT.
i gave presentation on this topic which is very useful.
Iot is very big things to learn and it contains many of the things like sensors,Internet etc.
Internet of Things (IoT) - Slide Marvels, Top PowerPoint presentation design ...Slide Marvels
This is a small video done with Microsoft PowerPoint by the designers of Slide Marvels on the topic 'Internet of Things (IoT).
Slide Marvels (www.slidemarvels.com) is a leading Presentation Design Company having experience of many years. We are a professional team of presentation designers who have already worked in major consulting firms like McKinsey & Co., Boston Consulting Group and Deloitte to mentioned some of them.
Our passion is to build and design any type of PowerPoint presentations from pitch decks, team meeting, training documents up to webinar documents and more. We always design World Class presentation that you will be proud of.
www.slidemarvels.com
what is Internet of things(iot) & how does it workSara shall
a definition for the internet of things(IOT) and simple explanation about its mechanism. this ppt also show IOT life cycle, why IOT and IOT applications. It states also IOT disadvantages.
“The Internet of Things (IoT) is a system of interrelated computing devices, mechanical and digital machines, objects, animals or people that are provided with unique identifiers and the ability to transfer data over a network
The document discusses Internet of Things (IoT) and provides an overview in three main points:
1. IoT involves connecting physical objects/things to the internet so they can communicate and transfer data without human interaction. This allows the objects to collect and share information.
2. Current trends show efforts to connect 26 billion objects by 2020, with healthcare, transportation and manufacturing leading the way. Common communication methods for connecting objects include WiFi, Bluetooth, and Zigbee.
3. IoT provides benefits like real-time analytics and control, but also faces challenges regarding security, adoption rates, compatibility and power constraints. Main application areas include home automation, smart cities, manufacturing and automotive.
To put the future of the Internet of Things into prospective, we've compiled a list of the industry's latest trends and statistics.
To learn how CloudOne helps the world's best companies make their things for the Internet of Things, visit www.oncloudone.com.
The document discusses the Internet of Things (IoT). It defines IoT as the network of physical objects connected to the internet and able to communicate with other internet-enabled devices. It lists common communication methods like WiFi, Bluetooth, and Zigbee used to connect objects. Benefits include real-time marketing, analytics, optimization, and control of complex systems. Security, adoption rates, compatibility, power, and connectivity are challenges. Main application areas are home/building automation, smart cities, manufacturing, wearables, healthcare, and automotive. The document also discusses current IoT capabilities and Microsoft Azure as a platform for building IoT solutions and services.
This presentation helps high school students to get a firm basic understanding of the Internet of Things (IoT). Igniting innovation is central to this presentation.
This talk was delivered to students at Visvesvaraya Industrial and Technological Museum (VITM), Bangalore on Sep 15th 2015, the Engineer’s Day in India. The event is organized by VITM and IEEE Bangalore Chapter.
This document discusses the Internet of Things (IoT). It defines IoT as the network of physical objects embedded with electronics, software, and sensors that enables them to connect and exchange data. By 2020, it is estimated that 50 billion devices will be connected to the internet. IoT applications include smart appliances, healthcare devices, wearable technology, and various sensors. The document also discusses how IoT works, common security challenges, communication protocols, hardware tools, and best practices for securing IoT devices and data.
The document provides an overview of the Internet of Things (IoT). It defines IoT as the network of physical objects embedded with sensors that collect and exchange data. It discusses how IoT works by connecting devices through sensors, processors and communication hardware. Examples of applications include building automation, manufacturing, healthcare, transportation and more. The document also outlines some current technological challenges of IoT like scalability, standardization and security/privacy issues. It concludes with a discussion of the future prospects and criticisms of expanding IoT connectivity.
In this presentation, Divya introduces IoT and associated trends. Natasha is interested in IoT applications in the domains of smart cities and pollution reporting.
The document discusses airborne internet, which aims to provide high-speed wireless internet connection by placing aircraft in fixed paths over hundreds of cities. Three key points:
1) Airborne internet uses aircraft flying at around 15,500 meters to act as wireless hubs, connecting users on the ground via high-frequency signals between 28-38 GHz for lower latency and cost compared to satellite internet.
2) Implementation systems include planes designed by Angel Technologies and Aerovironment, as well as blimps from Sky Station International.
3) Advantages over existing systems include increased productivity, security, flexibility and broadband access for remote communities at a lower overall cost than satellite solutions.
The document summarizes Airborne Internet (AI), which provides high-speed wireless internet by placing aircraft equipped with networking equipment in fixed paths over cities. AI uses a HALO network and aircraft as hubs to transmit data from internet service providers to users within a 75 mile diameter range. It has advantages over satellite internet like lower latency, cost, and power requirements. The technology could deliver speeds of 25Mbps for businesses and 5Mbps for homes using frequencies between 28-38GHz.
Airborne Internet aims to provide high-speed wireless internet connectivity by placing aircraft in fixed flight paths overhead of hundreds of cities. The network would deliver speeds of around 25Mbps for business and 5Mbps for homes using aircraft flying at 51,000 feet. The Airborne Internet Consortium is a nonprofit that develops open standards for digital aviation communications over this airborne network, called HALO. Key applications include air traffic control tracking, in-flight monitoring, and providing internet access to passengers in aircraft.
Abstract
The word on just about every Internet user's lips these days is "broadband." We have so much more data to send and download today, including audio files, video files and photos, that it's clogging our wimpy modems. Many Internet users are switching to cable modems and digital subscriber lines (DSLs) to increase their bandwidth. There's also a new type of service being developed that will take broadband into the air. In this paper, we'll learn about the future of the Airborne Internet. We'll take a look at the networks in development, the aircraft and how consumers may use this technology.
Land-based lines are limited physically in how much data they can deliver because of the diameter of the cable or phone line. In an airborne Internet, there is no such physical limitation, enabling a broader capacity.
The airborne Internet will function much like satellite-based Internet access, but without the time delay. The airborne Internet will actually be used to compliment the satellite and ground-based networks, not replace them. These airborne networks will overcome the last-mile barriers facing conventional Internet access options.
This paper addresses some of the trends and issues involved in developing an Airborne Internet capable of achieving this goal. Understanding relationships between these trends and issues and the objectives and functional requirements of the program will allow various participants in this complex program to keep activities in proper perspective. The all-round development and improvement are the key areas of research work performed in this paper.
The document discusses Airborne Internet (AI), which provides internet access to aircraft. AI uses high-altitude planes, blimps, and drones stationed 60,000 feet above ground to function as flying cell towers, creating a wireless network for aircraft and users on the ground. It operates similarly to satellite internet but without transmission delays. Three companies have proposed implementations using planes, drones, and blimps to provide coverage over hundreds of cities. AI would benefit aviation services and allow passengers to access internet during flights, including in remote areas.
This document discusses proposals for airborne internet networks. It describes three main systems - Halo networks using high-altitude planes, Sky Station using high-altitude blimps, and NASA's Helios aircraft. The Halo network would use a plane called Proteus as a hub carrying networking equipment. Sky Station would use blimps stationed at 13 miles above cities to provide internet coverage. NASA's Helios prototype is made of lightweight composite materials and aims to stay airborne for six months. The document outlines the potential benefits of airborne internet for providing connectivity to aircraft and opportunities to access the internet from the sky.
The document discusses airborne internet, which aims to provide broadband internet connectivity by placing aircraft equipped with networking equipment in fixed paths over cities. It would allow download speeds of 25Mbps for businesses and 5Mbps for homes. The technology uses a network called HALO and aircraft like the Proteus plane, which has an 18-foot dish to reflect signals. The airborne internet architecture involves user terminals connecting to the aircraft hub via antennas. Implementing it could provide benefits like increased productivity, security, and innovation compared to existing internet infrastructure.
The document discusses the concept of airborne internet which uses aircraft equipped with wireless networking equipment to create aerial networks and provide internet access to users on the ground. It describes several proposed systems like Angel Technologies' HALO Network which would use a modified aircraft called Proteus to relay signals from ground stations. Similarly, NASA is working with AeroVironment on a project using electric-powered aircraft like Helios to remain airborne for extended periods to serve as telecom hubs. The airborne internet aims to expand broadband access to remote areas that lack terrestrial internet infrastructure.
This document provides a summary of a seminar report on Airborne Internet presented by Aravind S. It discusses how Airborne Internet aims to provide a general purpose, multi-application data channel for aviation by establishing a robust digital connection between aircraft and the ground analogous to a desktop computer's internet connection. A primary application is aircraft tracking for air traffic control. The Airborne Internet Consortium is a non-profit organization that researches and promotes open standards for aviation digital communications to provide benefits like lower costs, increased productivity, and flexibility. The report outlines advantages like increased security and innovation along with applications for radar planes and the role and objectives of the Airborne Internet Consortium.
Airbone Radar Applications by Wg Cdr Anupam Tiwarianupamtiwari1972
The document provides an overview of airborne radar systems. It discusses the basic principles of radar including transmitters, antennas, receivers and displays. It then covers different types of airborne radars used on various aircraft, their applications in surveillance, altimetry and weather monitoring. Specific airborne radars discussed include synthetic aperture radar, millimeter-wave cloud radar and terrain mapping radars. The document concludes with standards used in certifying airborne radar systems.
Tourism and Transportation are inextricably linked. As world tourism increases, additional demands will be placed on the transportation sectors.
Source: C. Goeldner, Z. Cruz
Message me if you want to have a copy of this presentation. Thanks.
Content Marketing ROI: What's Your Content Formula?Michael Brenner
Calculate the ROI of content marketing and never waste money again. In this webinar, Liz Bedor and explain the core foundations from our book "The Content Formula" We go over Building a solid Business Case, getting the Budget, and Proving the ROI of content marketing
The document provides an overview of the Internet of Things (IoT). It discusses key features of IoT including artificial intelligence, connectivity, sensors, engagement, and small devices. It also outlines the history and development of IoT from early concepts in the 1800s to its naming in 1999. Advantages include improved customer engagement and data collection, while disadvantages include security, privacy, complexity, and flexibility challenges.
The idea is to create a social network of sensors in which various sensors integrated to intel Galileo will send the data to the user.
Nowadays using various social networking sites like Facebook, twitter, google+ has become too main stream.
Now the idea is to integrate our home status to these social networking sites that is, creating a “Galileo link”.
Home status will be comprised of various readings taken by the sensors like IR sensor, LDR, temperature sensor.
Sensors send data to intel Galileo then Galileo acts as a client and sends that data to the social networking site.
For example in Facebook an account is created and that account is registered on Facebook developer. As soon as the account is registered on Facebook developer it creates an access token.
Access token is then included in python script running in the Galileo device.
Hence our data can be seen in our news feed and we just have to add the registered account as our friend
Application and Usefulness of Internet of Things in Information TechnologyDr. Amarjeet Singh
The Internet of Things (IoT) is a system of
interrelated computing devices, mechanical and digital
machines, objects, animals or people that are provided with
unique identifiers and the ability to transfer data over a
network without requiring human-to-human or human-tocomputer interaction. It is an ambiguous term, but it is fast
becoming a tangible technology that can be applied in data
centers to collect information on just about anything that
IT wants to control. IoT has evolved from the convergence
of wireless technologies, micro-electromechanical systems
(MEMS), microservices and the internet. The convergence
has helped tear down the silo walls between operational
technology (OT) and information technology (IT), allowing
unstructured machine-generated data to be analyzed for
insights that will drive improvements. The Internet of
Things (IoT) is essentially a system of machines or objects
outfitted with data-collecting technologies so that those
objects can communicate with one another. The machineto-machine (M2M) data that is generated has a wide range
of uses, but is commonly seen as a way to determine the
health and status of things -- inanimate or living.
This document contains information about an Internet of Things project. It includes the name, contact information, and education details of Vineeth Suhas. It then provides an introduction to IoT, describing it as connecting physical objects through sensors and enabling data exchange. Trends mentioned include IoT emerging as a new technology trend and the expected growth of connected devices. The document expresses Vineeth Suhas' interest in working on the application layer of an IoT architecture to develop applications in areas like manufacturing, logistics and healthcare.
In this presentation, Chittrieta introduces the topic of IoT, current applications of IoT and associated trends. Chittrieta's interest lies in application of IoT on the shop floor in the manufacturing vertical.
The document discusses the Internet of Things (IoT), which refers to the connection of physical objects through the internet. It defines IoT and describes its three main components: things or assets, communication networks, and computing systems. Examples are given of IoT applications in various industries like agriculture, manufacturing, utilities, and smart homes/cities. Challenges of IoT discussed include security issues due to more entry points, the need to transition from IPv4 to IPv6, and developing self-sustaining power sources for devices. The document concludes by mentioning recent news and growth forecasts about IoT and how it can benefit areas like transportation, energy grids, and security.
WIRELESS SENSORS INTEGRATION INTO INTERNET OF THINGS AND THE SECURITY PRIMITIVEScsandit
The common vision of smart systems today, is by and large associated with one single concept,
the internet of things (IoT), where the whole physical infrastructure is linked with intelligent
monitoring and communication technologies through the use of wireless sensors. In such an
intelligent vibrant system, sensors are connected to send useful information and control
instructions via distributed sensor networks. Wireless sensors have an easy deployment and
better flexibility of devices contrary to wired setup. With the rapid technological development of
sensors, wireless sensor networks (WSNs) will become the key technology for IoT and an
invaluable resource for realizing the vision of Internet of things (IoT) paradigm. It is also
important to consider whether the sensors of a WSN should be completely integrated into IoT or
not. New security challenges arise when heterogeneous sensors are integrated into the IoT. Security needs to be considered at a global perspective, not just at a local scale. This paper gives an overview of sensor integration into IoT, some major security challenges and also a
number of security primitives that can be taken to protect their data over the internet.
The interconnections of things such as gadgets, electronic devices, smart appliances, machines etc. with the help of embedded software’s, actuators, and network via the Internet forming a holistic grid is called as the internet of things or IoT. IoT enables these devices to communicate, share data & information amongst each other.
This document provides information about an individual and their interest in the Internet of Things (IoT). It begins with the individual's name, contact information, and academic details. It then provides an introduction to IoT, describing it as connecting everyday devices to the internet. The document outlines some trends in IoT, such as the use of cloud computing, semantic technologies, and increased autonomy of connected devices. It concludes with the individual's interests in IoT, including connecting remote systems, incorporating device data into processes, and addressing security, privacy, trust and reliability challenges.
This document provides information about an individual and their interest in the Internet of Things (IoT). It begins with the individual's name, contact information, and academic details. It then provides an introduction to IoT, describing it as connecting everyday devices to the internet. The document outlines some trends in IoT, such as the use of cloud computing, semantic technologies, and increased autonomy of connected devices. It notes new challenges around security, privacy, and trust that IoT brings. In closing, the individual expresses interest in connecting remote devices and systems to provide data streams, and incorporating device and sensor data into organizational processes.
1) IoT refers to the network of physical objects connected to the internet and able to communicate with other internet-enabled devices.
2) IoT connects devices embedded in various systems to allow them to be controlled from anywhere.
3) While IoT offers benefits like improved efficiency, current challenges include issues of scalability, security, and lack of standards. Solutions involve improving interoperability, security measures, and industry regulations.
This document provides an overview of Internet of Things (IoT) technologies and their applications. It discusses the large technology landscape around IoT, including embedded technologies in devices, communication and networking technologies to connect devices, and application technologies. It also outlines several industry use cases for IoT and ALTEN's positioning and services in this area, which include developing communicating devices, networks, information systems, mobile apps, and integration services.
Internet of Things (IoT): More than Smart “Things”Ahmed Banafa
By 2020, experts forecast that up to 28 billion devices will be connected to the Internet with only one third of them being computers, smartphones and tablets. The remaining two thirds will be other “devices” – sensors, terminals, household appliances, thermostats, televisions, automobiles, production machinery, urban infrastructure and many other “things”, which traditionally have not been Internet enabled.
This “Internet of Things” (IoT) represents a remarkable transformation of the way in which our world will soon interact. Much like the World Wide Web connected computers to networks, and the next evolution connected people to the Internet and other people, IoT looks poised to interconnect devices, people, environments, virtual objects and machines in ways that only science fiction writers could have imagined.
In a nutshell the Internet of Things (IoT) is the convergence of connecting people, things, data and processes is transforming our life, business and everything in between.
Convergence of cloud computing and iotAADITYAGOEL7
Cloud computing:Cloud Computing is a general term used to describe a new class of network based computing that takes place over the Internet, basically a step on from Utility Computing a collection/group of integrated and networked hardware, software and Internet infrastructure (called a platform). Using the Internet for communication and transport provides hardware, software and networking services to clients These platforms hide the complexity and details of the underlying infrastructure from users and applications by providing very simple graphical interface or API (Applications Programming Interface).
What is Cloud Computing?:In addition, the platform provides on demand services, that are always on, anywhere, anytime and any place. Pay for use and as needed, elastic scale up and down in capacity and functionalities The hardware and software services are available to general public, enterprises, corporations and businesses markets
Iot Definition:“The Internet of Things (IoT) is a system of interrelated computing devices, mechanical and digital machines, objects, animals or people that are provided with unique identifiers and the ability to transfer data over a network without requiring human-to-human or human-to-computer interaction.”
What is an example of an Internet of Things device?:A lightbulb that can be switched on using a smartphone app is an IoT device, as is a motion sensor or a smart thermostat in your office or a connected streetlight.
An IoT device could be as fluffy as a child's toy or as serious as a driverless truck.
Some larger objects may themselves be filled with many smaller IoT components, such as a jet engine that's now filled with thousands of sensors collecting and transmitting data back to make sure it is operating efficiently
Convergence of iot and cloud computing:Though Cloud Computing and IoT are the technoligies that function in different ways, both of them are symbiotic and mutually inseperable . Most of the data collected through Iot is processed in the cloud. Hence, these two have become the most closely associated internet technoligies.
Convergence of these two technologies have the following :-
Providing infrastructure to third party to help IoT data working over IoT devices.
Developing pay-as-you-go cloud computing method.
Providing connectivity required to share information beween IoT devices and derive meaning quickly.
In this presentation, Joobi discusses the basics of Internet of Things and goes on to say that in the next five years we might very well be interacting with things that operate in smart spaces and have virtual personalities.
Internet of things (IoT) is an emerging technology today that envisions all objects around us as a part of
Internet. Automation of the devices, appliances at home and office is having extensive possibility of research
with the innovation of technology in communication. Misuse of power energy can be shortened by automating
the devices and appliances. Mobile communication is plays a major role in the automation domain. Android
phones are designed with applications to automate the required devices. Creating a mobile app on a Smartphone
device so that the user can control electronic devices; see the amount of flow, so the problem is the difficulty in
saving electricity can be resolved. IoT includes variety of objects like smart phones, tablets, digital cameras and
different sensors. When all these devices are connected together, they enable additional smart processes and
services that support our basic needs, environment and health. Massive number of devices connected to internet
provides enormous kinds of services and also produces huge amount of data and information. Cloud computing
is an on-demand access to a shared pool of configurable resources that can be provisioned as infrastructures,
software and applications. Cloud based platforms help to connect to the things around us so it is easy to connect
any objects anytime at any place using in built applications. Applications that use devices like sensors have
unique requirements of enormous storage to store big data and huge computation power to enable the real time
processing of the data, information and high speed network is required for audio and video streaming. Wireless
technologies like Bluetooth, WiFi, and ZigBee have been used in wide range of applications like modern home
security systems using low cost, low power, less complexity RF module.
This presentation covers:
What is IoT (Internet Of Things) ?
Brief History of IoT
IoT Architecture & Perspective
IoT Applications
IoT Challenges and Solutions
IoT future
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In this presentation, Praneeth introduces IoT and associated trends. Praneeth is interested in IoT applications in home automation space and he also has several ideas WRT to water management and transport management using IoT applications.
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Internet of Things
1. INTERNET OF THINGS
(IoT)
NAME :ADHIRAI SIVAGAMI KATHIRESAN
E-MAIL ID:adhiraisivagami.k.2012.cse@ritchennai.edu.in
TWITTER ID:@Adhirai1
UNIVERSITY:ANNA UNIVERSITY
YEAR/SEMESTER:III/6
BRANCH:COMPUTER SCIENCE AND ENGINEERING(CSE)
2. INTRODUCTION:
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.
3. CONT..
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.
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.
4. LATEST TRENDS :
The Internet of Things, or IoT, is emerging
as the next technology mega-trend, with
repercussions across the business
spectrum.
By connecting to the Internet billions of
everyday devices – ranging from fitness
bracelets to industrial equipment – the
IoT merges the physical and online
worlds, opening up a host of new
opportunities and challenges for
companies, governments and consumers.
5. CONT..
We can say that rich new information sources will run at
your fingertip. The evolution of the next generation mobile
system will depend on the creativity of the users in
designing new applications. However, security and privacy
will be the top considerations for the development
companies involved in apps development.
In the world of IoT, devices are becoming instrumented,
intelligent and interconnected. IoT is the combination of
software and hardware technologies, where myriad devices
are interconnected and uniquely identified on the Internet.
The network of these devices is contributing to huge global
data traffic. According to Intel, 31 billion devices and 4
billion people will be connected to the Internet by 2020.
This implies to almost eight devices per person will be
connected to the Internet in 2020.
6. MY INTRESTED AREA IN IoT:
According to me emerging of new
concepts like “pure play” was the
interesting concept in IoT.
“Like the mobile revolution, IoT created
new companies and new categories. The
IoT expands beyond “pure play”
enablers… as the market begins to take
shape and continues to evolve; I expect a
similar ecosystem of software vendors to
develop.”
7. Cont..
My Innovation in Transport with IoT:
Connecting vehicles to the internet could enable them to be
tracked and have the performance of their engine and other
mechanical components remotely monitored.
Connected vehicles should be better able to avoid accidents by
detecting and monitoring the presence of other road users.
Me liked to innovate a better
transportation using IoT and sensor
technique.