The document discusses the emergence and future growth of the Internet of Things (IoT). It describes how IoT has evolved from earlier technologies like RFID and M2M communication. IoT allows devices to connect to the internet and interact directly over multiple network types. The document predicts that IoT will significantly grow, with estimates of 50 billion smart devices connected by 2020, and an economic value of over $1.9 trillion. While some see IoT as hype, the document argues it has great potential due to contributions from major technology players.
The document discusses the Internet of Things (IoT). It defines IoT as connecting physical devices to the internet and allowing them to exchange data. It describes how IoT works using sensors, actuators, and embedded systems to collect and share useful information. The history of IoT is traced back to the 1980s, with continued development and growing momentum. Example applications are given in various areas like smart homes and infrastructure. Challenges of IoT like scalability, standardization, and security are also outlined. The future of IoT is seen as connecting more devices and networks to create more opportunities.
The document provides information about the history and development of the Internet. It discusses how the idea of an "Intergalactic Network" was popularized by J.C.R. Licklider in the 1960s. The first working prototype was ARPANET, which sent its first message from UCLA to Stanford in 1969. As of July 2020, almost 4.57 billion people globally were active internet users, encompassing 59% of the world's population. The Internet of Things refers to the billions of physical devices now connected to the internet to collect and share data.
In this presentation, Shreya introduces IoT and associated trends. Shreya's interest areas lie in developing IoT applications that impact common man. Mobile Augmented reality is one of her interest areas.
The document defines Internet of Things (IoT) as connecting physical objects through internet connectivity, allowing these "things" to sense and collect data and operate. It discusses how IoT has evolved from connecting computers to now connecting various physical objects and devices through technologies like sensors and RFID tags. The document also outlines some key aspects of IoT like its history starting at MIT, ubiquitous networking to enable interactions between connected things, how things/objects are defined as smallest addressable units called atoms, use of identifiers instead of IP addresses, applications of IoT in areas like smart cities and agriculture.
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.
The document discusses the Internet of Things (IoT). Some key points:
- IoT involves connecting physical devices and objects to the internet to collect and exchange data. This enables monitoring and control of devices from anywhere.
- Early work on IoT technologies dates back to the 1990s, but it became more established between 2008-2009. Estimates predict 25 billion devices will be connected by 2015 and over 50 billion by 2020.
- IoT has many applications including monitoring home appliances and sensors, tracking shipments, automating safety systems, and performing remote testing using networked cameras and sensors.
- By 2020 there will be an estimated 26 times more connected devices than people. IoT adoption is growing
The document discusses the emergence and future growth of the Internet of Things (IoT). It describes how IoT has evolved from earlier technologies like RFID and M2M communication. IoT allows devices to connect to the internet and interact directly over multiple network types. The document predicts that IoT will significantly grow, with estimates of 50 billion smart devices connected by 2020, and an economic value of over $1.9 trillion. While some see IoT as hype, the document argues it has great potential due to contributions from major technology players.
The document discusses the Internet of Things (IoT). It defines IoT as connecting physical devices to the internet and allowing them to exchange data. It describes how IoT works using sensors, actuators, and embedded systems to collect and share useful information. The history of IoT is traced back to the 1980s, with continued development and growing momentum. Example applications are given in various areas like smart homes and infrastructure. Challenges of IoT like scalability, standardization, and security are also outlined. The future of IoT is seen as connecting more devices and networks to create more opportunities.
The document provides information about the history and development of the Internet. It discusses how the idea of an "Intergalactic Network" was popularized by J.C.R. Licklider in the 1960s. The first working prototype was ARPANET, which sent its first message from UCLA to Stanford in 1969. As of July 2020, almost 4.57 billion people globally were active internet users, encompassing 59% of the world's population. The Internet of Things refers to the billions of physical devices now connected to the internet to collect and share data.
In this presentation, Shreya introduces IoT and associated trends. Shreya's interest areas lie in developing IoT applications that impact common man. Mobile Augmented reality is one of her interest areas.
The document defines Internet of Things (IoT) as connecting physical objects through internet connectivity, allowing these "things" to sense and collect data and operate. It discusses how IoT has evolved from connecting computers to now connecting various physical objects and devices through technologies like sensors and RFID tags. The document also outlines some key aspects of IoT like its history starting at MIT, ubiquitous networking to enable interactions between connected things, how things/objects are defined as smallest addressable units called atoms, use of identifiers instead of IP addresses, applications of IoT in areas like smart cities and agriculture.
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.
The document discusses the Internet of Things (IoT). Some key points:
- IoT involves connecting physical devices and objects to the internet to collect and exchange data. This enables monitoring and control of devices from anywhere.
- Early work on IoT technologies dates back to the 1990s, but it became more established between 2008-2009. Estimates predict 25 billion devices will be connected by 2015 and over 50 billion by 2020.
- IoT has many applications including monitoring home appliances and sensors, tracking shipments, automating safety systems, and performing remote testing using networked cameras and sensors.
- By 2020 there will be an estimated 26 times more connected devices than people. IoT adoption is growing
The document discusses the concept of the Internet of Things (IoT). It describes IoT as a system of interconnected computing devices, machines, objects, animals, or people that are provided with unique identifiers and can transfer data over a network without requiring human interaction. It explains that IoT devices collect and share sensor data by connecting to gateways or the cloud to be analyzed, and then act on the information they obtain from one another. Examples of IoT applications discussed are smart cars and smart wearable technology.
The document discusses the Internet of Things (IoT) and how it will allow all types of devices, sensors, and people to be connected through standard communication protocols, forming a seamless network without human intervention. It describes how IoT works by having sensors collect data which is analyzed and decisions made based on that data. Finally, it provides examples of IoT applications in various domains like transportation, healthcare, smart cities, and more, and envisions a future where everything is connected through this technology.
The document provides an overview of the Internet of Things (IoT) including:
- It discusses the history of industrial revolutions leading up to the current 4th revolution characterized by technologies like IoT, AI, and machine learning.
- IoT is defined as the network of devices containing sensors, software and connectivity that allows them to connect, interact and exchange data, adding intelligence and merging the digital and physical worlds.
- The document outlines how IoT works through sensors, connectivity, data processing, and user interfaces. It also discusses where IoT is used, vulnerabilities, and the future growth of IoT and connected devices.
- In closing, it notes that if misunderstood IoT poses
The Internet of Things (IoT) is a computing concept where everyday physical objects can connect to the Internet and identify themselves to other devices, allowing them to act intelligently together in ways that provide more data than any object alone. IoT enables objects to digitally represent themselves and connect to surrounding objects and databases, so that when many objects coordinate, they demonstrate "ambient intelligence." IoT describes a future where physical things in the world can connect and communicate intelligently over the Internet, making the physical world one big information system.
The document discusses the Internet of Things (IoT), which refers to a global network that allows both people and devices to communicate electronically. It provides definitions of IoT from different sources, noting it allows household appliances and "things" to have identities and communicate within various contexts. The document outlines some applications of IoT in various industries and also discusses challenges including issues around privacy, efficiency, standards, and developing sustainable energy sources for billions of connected devices.
Geeks bearing gifts: Unwrapping New Technologies, Version April12ayoungkin
Andrew Youngkin presented information on emerging technologies including QR codes, cloud computing, near field communication (NFC), augmented reality, and screencasting. He discussed each technology's uses and implications as well as providing examples and opportunities for hands-on practice. The overall goals were to enhance awareness of select technologies and how they can be used in libraries and education.
The document discusses the Internet of Things (IoT), which refers to connecting physical objects through wireless networks and sensors. It describes how IoT allows everyday devices and objects to connect and communicate electronically. The document outlines several applications of IoT such as smart homes, smart cities, industrial automation, and smart healthcare. It also discusses challenges of IoT including issues around privacy, standards, and developing sustainable energy sources for billions of connected devices.
This document provides an overview of the Internet of Things (IoT). It defines IoT as a network of physical objects embedded with sensors that are connected to and can transfer data over the Internet. Key points discussed include:
- IoT allows anything, anywhere, anytime to be connected (the 3 A's)
- The term was first proposed in 1999 and became popular at the Auto-ID Centre at MIT
- IoT can be considered as machine-to-machine communication technology
- IoT is driven by sensors, connectivity, people and processes working together
- Essential enabling technologies include sensors and recent IoT products are listed on websites like iotlist.co
The document discusses the topic of the Internet of Things (IOT). It defines IOT as a collection of devices, sensors and things that are connected through networks and can send and receive data. The document outlines the typical life cycle of IOT which includes collection, communication, analysis and action based on the data. Statistics show growth in IOT adoption, especially in India's smart cities initiative. Examples of IOT applications include smart shoes, smart homes and industrial automation. The conclusion emphasizes that IOT will provide rich new information and drive development of new mobile applications, though security and privacy must be top priorities.
Here I upload a presentation on Internet of Things. That means “Internet” and “Thing”, where “Internet” can be defined as “The world-wide network of interconnected computer networks, based on a standard communication protocol, the Internet suite (TCP/IP)”, while “Thing” is “an object not precisely identifiable” Therefore, semantically, “Internet of Things” means “a world-wide network of interconnected objects uniquely addressable.
In this session, we will explore what IoT is and will explore the basics of edge and fog computing.
We will also explore the layered architecture of a standard IoT model in detail, followed by data processing models in IoT. We will also explore what should be the final outcome of an IoT based application.
The document discusses the Internet of Things (IoT). IoT refers to connecting physical devices to the internet and assigning them IP addresses so they can collect and share data autonomously. This allows things to be monitored and managed remotely and creates network effects as more things connect. Key IoT technologies include various communication options and data platforms that help manage the data generated by connected devices. IoT has the potential to give planet earth an "electronic skin" using the internet to transmit sensations from embedded technologies.
The document discusses the Internet of Things (IoT). It defines IoT as a wireless network between objects that are electronically connected to communicate with each other and the world around them. Some key applications of IoT mentioned are smart homes, smart cities, smart health, industrial automation, education, retail, logistics and management. Challenges of IoT include issues around privacy, security, standards, efficiency and balancing human control with machine autonomy.
In this presentation, Samdish introduces IoT and associated trends. Samdish is interested in surveillance applications using IoT where image processing could be done by MATLAB and data storage can happen on cloud.
Ubiquitous computing refers to technologies that are embedded and integrated into everyday objects and activities to provide information access anywhere and anytime. Key aspects include devices being invisible, adaptive to user needs and context, and able to anticipate desires without direct input. Emerging technologies like small processors, sensors, new inputs/outputs, and cloud computing will enable ubiquitous computing. This could allow libraries to combine circulation data with social network information to improve reference services. As digital content becomes widely accessible, libraries may increasingly serve as valuable community spaces for collaboration.
Overview of internet of things (IoT) the new upcoming technology in handRanjith P
The document discusses the evolution and future of the Internet of Things (IoT). It describes how the IoT allows both everyday objects and specialized devices to connect to the internet and transfer data. The number of connected devices is expected to grow exponentially, reaching 50 billion by 2020. This expansion enables new applications across various industries like smart homes, healthcare, transportation and more. However, the large-scale adoption of the IoT also presents challenges regarding security, privacy, energy use and managing the huge amounts of data generated.
In this presentation, Shivani introduces IoT and associated trends. Shivani describes what seems like a very interesting future to have with mobile as the gateway to a smart home.
Internet of Things, is a new revolution of the Internet. Objects make themselves recognizable and they get intelligence thanks to the fact that they can communicate information about themselves and they can access information that has been aggregated by other things. Alarm clocks go off early if there’s traffic; plants communicate to the sprinkler system when it’s time for them to be watered; running shoes communicate time, speed and distance so that their wearers can compete in real time with people on the other side of the world; medicine containers tell your family members if you forget to take the medicine. All objects can get an active role thanks to their connection to the Internet.
This document provides an overview of Internet of Things (IoT) and home automation. It defines IoT as physical objects embedded with electronics, software, and sensors that can collect and exchange data over networks. This enables remote monitoring and control of objects, improving efficiency. The document discusses why IoT is useful for generating and using acquired information to make better decisions. It also explains that the number of connected devices is expected to grow dramatically in the coming years. Finally, it provides examples of IoT applications in various areas like smart homes, manufacturing, healthcare, and more.
This document provides an overview of IoT architecture. It discusses the evolution of the internet from human-to-human communication to machine-to-machine communication with the rise of IoT. It describes the key elements and layers of an IoT architecture, including the perception layer with sensors and actuators, the connectivity layer using various networking technologies, and processing, application, business, security and edge computing layers. The 7-layer IoT architecture model is also presented, with descriptions of the perception and connectivity layers.
IoT which stands for Internet of Things is not a very new topic, but sensing its importance and growing demand, it's very important for one to understand what exactly is IoT. So, here is the file, which will help you know about it in a very easy manner.
Hope this will help you
The document discusses the concept of the Internet of Things (IoT). It describes IoT as a system of interconnected computing devices, machines, objects, animals, or people that are provided with unique identifiers and can transfer data over a network without requiring human interaction. It explains that IoT devices collect and share sensor data by connecting to gateways or the cloud to be analyzed, and then act on the information they obtain from one another. Examples of IoT applications discussed are smart cars and smart wearable technology.
The document discusses the Internet of Things (IoT) and how it will allow all types of devices, sensors, and people to be connected through standard communication protocols, forming a seamless network without human intervention. It describes how IoT works by having sensors collect data which is analyzed and decisions made based on that data. Finally, it provides examples of IoT applications in various domains like transportation, healthcare, smart cities, and more, and envisions a future where everything is connected through this technology.
The document provides an overview of the Internet of Things (IoT) including:
- It discusses the history of industrial revolutions leading up to the current 4th revolution characterized by technologies like IoT, AI, and machine learning.
- IoT is defined as the network of devices containing sensors, software and connectivity that allows them to connect, interact and exchange data, adding intelligence and merging the digital and physical worlds.
- The document outlines how IoT works through sensors, connectivity, data processing, and user interfaces. It also discusses where IoT is used, vulnerabilities, and the future growth of IoT and connected devices.
- In closing, it notes that if misunderstood IoT poses
The Internet of Things (IoT) is a computing concept where everyday physical objects can connect to the Internet and identify themselves to other devices, allowing them to act intelligently together in ways that provide more data than any object alone. IoT enables objects to digitally represent themselves and connect to surrounding objects and databases, so that when many objects coordinate, they demonstrate "ambient intelligence." IoT describes a future where physical things in the world can connect and communicate intelligently over the Internet, making the physical world one big information system.
The document discusses the Internet of Things (IoT), which refers to a global network that allows both people and devices to communicate electronically. It provides definitions of IoT from different sources, noting it allows household appliances and "things" to have identities and communicate within various contexts. The document outlines some applications of IoT in various industries and also discusses challenges including issues around privacy, efficiency, standards, and developing sustainable energy sources for billions of connected devices.
Geeks bearing gifts: Unwrapping New Technologies, Version April12ayoungkin
Andrew Youngkin presented information on emerging technologies including QR codes, cloud computing, near field communication (NFC), augmented reality, and screencasting. He discussed each technology's uses and implications as well as providing examples and opportunities for hands-on practice. The overall goals were to enhance awareness of select technologies and how they can be used in libraries and education.
The document discusses the Internet of Things (IoT), which refers to connecting physical objects through wireless networks and sensors. It describes how IoT allows everyday devices and objects to connect and communicate electronically. The document outlines several applications of IoT such as smart homes, smart cities, industrial automation, and smart healthcare. It also discusses challenges of IoT including issues around privacy, standards, and developing sustainable energy sources for billions of connected devices.
This document provides an overview of the Internet of Things (IoT). It defines IoT as a network of physical objects embedded with sensors that are connected to and can transfer data over the Internet. Key points discussed include:
- IoT allows anything, anywhere, anytime to be connected (the 3 A's)
- The term was first proposed in 1999 and became popular at the Auto-ID Centre at MIT
- IoT can be considered as machine-to-machine communication technology
- IoT is driven by sensors, connectivity, people and processes working together
- Essential enabling technologies include sensors and recent IoT products are listed on websites like iotlist.co
The document discusses the topic of the Internet of Things (IOT). It defines IOT as a collection of devices, sensors and things that are connected through networks and can send and receive data. The document outlines the typical life cycle of IOT which includes collection, communication, analysis and action based on the data. Statistics show growth in IOT adoption, especially in India's smart cities initiative. Examples of IOT applications include smart shoes, smart homes and industrial automation. The conclusion emphasizes that IOT will provide rich new information and drive development of new mobile applications, though security and privacy must be top priorities.
Here I upload a presentation on Internet of Things. That means “Internet” and “Thing”, where “Internet” can be defined as “The world-wide network of interconnected computer networks, based on a standard communication protocol, the Internet suite (TCP/IP)”, while “Thing” is “an object not precisely identifiable” Therefore, semantically, “Internet of Things” means “a world-wide network of interconnected objects uniquely addressable.
In this session, we will explore what IoT is and will explore the basics of edge and fog computing.
We will also explore the layered architecture of a standard IoT model in detail, followed by data processing models in IoT. We will also explore what should be the final outcome of an IoT based application.
The document discusses the Internet of Things (IoT). IoT refers to connecting physical devices to the internet and assigning them IP addresses so they can collect and share data autonomously. This allows things to be monitored and managed remotely and creates network effects as more things connect. Key IoT technologies include various communication options and data platforms that help manage the data generated by connected devices. IoT has the potential to give planet earth an "electronic skin" using the internet to transmit sensations from embedded technologies.
The document discusses the Internet of Things (IoT). It defines IoT as a wireless network between objects that are electronically connected to communicate with each other and the world around them. Some key applications of IoT mentioned are smart homes, smart cities, smart health, industrial automation, education, retail, logistics and management. Challenges of IoT include issues around privacy, security, standards, efficiency and balancing human control with machine autonomy.
In this presentation, Samdish introduces IoT and associated trends. Samdish is interested in surveillance applications using IoT where image processing could be done by MATLAB and data storage can happen on cloud.
Ubiquitous computing refers to technologies that are embedded and integrated into everyday objects and activities to provide information access anywhere and anytime. Key aspects include devices being invisible, adaptive to user needs and context, and able to anticipate desires without direct input. Emerging technologies like small processors, sensors, new inputs/outputs, and cloud computing will enable ubiquitous computing. This could allow libraries to combine circulation data with social network information to improve reference services. As digital content becomes widely accessible, libraries may increasingly serve as valuable community spaces for collaboration.
Overview of internet of things (IoT) the new upcoming technology in handRanjith P
The document discusses the evolution and future of the Internet of Things (IoT). It describes how the IoT allows both everyday objects and specialized devices to connect to the internet and transfer data. The number of connected devices is expected to grow exponentially, reaching 50 billion by 2020. This expansion enables new applications across various industries like smart homes, healthcare, transportation and more. However, the large-scale adoption of the IoT also presents challenges regarding security, privacy, energy use and managing the huge amounts of data generated.
In this presentation, Shivani introduces IoT and associated trends. Shivani describes what seems like a very interesting future to have with mobile as the gateway to a smart home.
Internet of Things, is a new revolution of the Internet. Objects make themselves recognizable and they get intelligence thanks to the fact that they can communicate information about themselves and they can access information that has been aggregated by other things. Alarm clocks go off early if there’s traffic; plants communicate to the sprinkler system when it’s time for them to be watered; running shoes communicate time, speed and distance so that their wearers can compete in real time with people on the other side of the world; medicine containers tell your family members if you forget to take the medicine. All objects can get an active role thanks to their connection to the Internet.
This document provides an overview of Internet of Things (IoT) and home automation. It defines IoT as physical objects embedded with electronics, software, and sensors that can collect and exchange data over networks. This enables remote monitoring and control of objects, improving efficiency. The document discusses why IoT is useful for generating and using acquired information to make better decisions. It also explains that the number of connected devices is expected to grow dramatically in the coming years. Finally, it provides examples of IoT applications in various areas like smart homes, manufacturing, healthcare, and more.
This document provides an overview of IoT architecture. It discusses the evolution of the internet from human-to-human communication to machine-to-machine communication with the rise of IoT. It describes the key elements and layers of an IoT architecture, including the perception layer with sensors and actuators, the connectivity layer using various networking technologies, and processing, application, business, security and edge computing layers. The 7-layer IoT architecture model is also presented, with descriptions of the perception and connectivity layers.
IoT which stands for Internet of Things is not a very new topic, but sensing its importance and growing demand, it's very important for one to understand what exactly is IoT. So, here is the file, which will help you know about it in a very easy manner.
Hope this will help you
The Internet of Things (IoT) refers to connecting physical objects to the internet. This allows objects to be identified and transfer data over a network without human interaction. The IoT evolved from wireless technologies, sensors, and the internet converging. It assigns IP addresses to objects like farm animals or cars to monitor data like tire pressure. While initially associated with machine communication, the IoT's potential is for "things" like appliances to sense and communicate digitally to improve efficiency.
The document discusses the Internet of Things (IoT). IoT refers to physical objects embedded with sensors, software and network connectivity that allows them to connect and exchange data. IoT devices collect and share sensor data through gateways and networks to be analyzed locally or in the cloud. Examples of IoT applications discussed include smart cities, wearables, farming, and self-driving cars. The future of IoT is presented as enabling new technologies and access to information through continued data shifts and security improvements.
The document provides an overview of the Internet of Things (IoT). It defines IoT and discusses its key components including sensors, connectivity, artificial intelligence, active engagement, and small devices. The document then discusses IoT architecture including sensing, network, data processing, and application layers. It also outlines some common applications of IoT such as smart homes, smart cities, and smart farming. Finally, the document discusses some of the advantages and challenges of implementing IoT systems.
This is a ppt on IOT. The internet of things, or IoT, is a system of interrelated computing devices, mechanical and digital machines, objects, animals or people that are provided with unique identifiers (UIDs) and the ability to transfer data over a network without requiring human-to-human or human-to-computer interaction.
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 document discusses the evolution and future of the Internet of Things (IoT). It describes the major eras in the development of the internet from the Internet of Boffins in the 1960s-70s to the modern Internet of Things. It explains how IoT works by connecting devices to collect and share data using embedded sensors. The document outlines the current status and future prospects of IoT, some of its applications, and technological challenges like security, interoperability and power supply. It concludes by stating that the potential of IoT is limited only by imagination.
What is Internet of Things?
History
How IoTWorks?
Few Applications of IoT
Current Status & Future Prospect of IoT
Technological Challenges of IoT
Criticisms & Controversies of IoT
The document discusses the Internet of Things (IoT). It defines IoT as the network of physical objects embedded with electronics, software, sensors, and connectivity to enable the collection and exchange of data. This allows objects to be sensed and controlled remotely, improving efficiency. Examples mentioned include smart home devices, medical devices, and field operation devices. The document then covers how IoT works, involving sensors, connectivity, data processing, and user interfaces. It discusses applications, technological challenges, and the relationship between IoT and big data. Both advantages and disadvantages of IoT are provided.
The Internet helped people to connect with static information available but now it is helping to build connection from people to people, people to physical objects and physical objects to other physical objects.
The speedy growth of Internet data is making networked connections more relevant and valuable. Also it creates exciting business opportunities for industries. Almost all every area, every device, every sensor,
every software are connected to each other. The ability to access these devices through a Smartphone or through a computer is called IoT (Internet of Things). These devices are accessed remotely. The Internet of things (IoT) is one of the top three technological advancements of the next decade together with the mobile, internet and the automation of knowledge work.
The Web of Things: Enabling the Physical World to the WebAndreas Kamilaris
A presentation about the practice of Web-enabling the physical world, by means of principles inspired from the Web of Things. This is an invited presentation of Prof. Andreas Pitsillides and Andreas Kamilaris at the University of Johannesburg, South Africa in April, 2012. In this presentation, the motivation, practice, historical background, exemplary applications, dangers and future challenges of the Web of Things are discussed.
This document provides an overview of Internet of Things (IoT) presented by Hajra Batool to Sir Abeer Naqvi. It defines IoT as the network of physical objects embedded with sensors, software and connectivity to collect and exchange data. Examples include smart home devices, farm animal trackers, and connected cars. The history and basic workings of IoT are explained through data collection, communication, analysis and action. Potential applications are discussed like smart cities, manufacturing, healthcare and more. Finally, some criticisms around privacy, security and control are outlined.
The document discusses the Internet of Things (IoT). It defines IoT as physical objects embedded with sensors that can collect and exchange data over the internet. It describes how IoT works through technologies like RFID, sensors, and wireless connections. It also outlines some applications of IoT like smart homes, manufacturing, healthcare, and more. Finally, it discusses technological challenges and criticisms of IoT, such as issues with privacy, security, and political manipulation.
The document discusses the Internet of Things (IoT). It defines IoT as physical objects embedded with sensors that can collect and exchange data over the internet. It describes how IoT works through technologies like RFID, sensors, and wireless connections. It also outlines some applications of IoT like smart homes, manufacturing, healthcare, and more. Finally, it discusses technological challenges and criticisms of IoT, such as issues with privacy, security, and political manipulation.
The document provides an overview of the Internet of Things (IoT). It discusses the history and timeline of IoT development. Key applications of IoT mentioned include smart cities, manufacturing, building automation, healthcare, automotive, and wearables. The document also outlines how IoT works using various wireless technologies, challenges to IoT adoption, and the future growth of connected devices. It predicts that by 2020 there will be 50 billion connected devices and on average 6 smart devices per person worldwide.
The Internet of Things (IoT) is the network of physical objects or "things" embedded with electronics, software, sensors, and network connectivity, which enables these objects to collect and exchange data.
IoT allows objects to be sensed and controlled remotely across existing network infrastructure, creating opportunities for more direct integration between the physical world and computer-based systems, and resulting in improved efficiency, accuracy, and economic benefit.
This document summarizes Alexandru Iovanovici's background and research interests. It discusses his educational background, publications, work experience, and personal projects related to embedded systems and robotics using Arduino. It then provides an overview of the Internet of Things (IoT), including trends, issues, and a bio-inspired approach to managing large-scale heterogeneous sensor networks. Iovanovici proposes investigating the applicability of bio-inspiration to organize and manage IoT networks through simulation. Finally, it discusses current IoT implementations, alliances, and the state of the industry.
This document provides an overview of the Internet of Things (IoT). It defines IoT as a system of interconnected computing devices that can collect and transfer data over a network without human interaction. The document then discusses the history of IoT, how IoT works by connecting devices to analyze sensor data in the cloud or on devices, and examples of common IoT applications like smart homes, cities, farming, and wearables. It also outlines benefits like access to information from anywhere and automated tasks, disadvantages like potential hacks and data management challenges, and a vision of limitless future potential through advances like AI and hyperscale deployment of use cases.
In this presentation, Ankit introduces SMAC and associated trends. Ankit's interest area lies in Big Data Analysis which he wants to in interesting applications in the healthcare space, one of the interesting examples he suggests is to find the correlation between treatment and cure.
In this presentation, Sumit introduces IoT and associated trends. Sumit's interest area lies in enabking physical-digital communication that is independent of physical location
In this presentation, Pawan discusses approaches for home automation and smart grid. His interest areas lie in implementing cloud server systems to monitor appliances and providing security for the same.
In this presentation, Ayush introduces IoT and associated trends. Ayush wants to work on the standardization part of IoT and as an example he talks about Constrained Application Protocol (CoAP).
In this presentation, Sairaju introduces SMAC and associated trends. Sai is currently working on a project on encryption of data in cloud and his interest area is in the related field of securing cloud infrastructure.
In this presentation, Melissa introduces IoT and associated trends. In Melissa's own words, "I would like to work on networking related to Ipv6 and designing network architecture for IPv6 and IPv6 Dual Stack for Broadband Edge"
The document discusses the Internet of Things (IoT) and trends related to IoT. IoT allows physical objects to connect and interact wirelessly to share information without human intervention. By 2020, IoT is expected to produce vast amounts of data that can help optimize systems and provide insights across various sectors like healthcare, transportation, and more. The author is interested in incorporating artificial intelligence with IoT to create applications that focus on environment conservation and healthcare by utilizing their programming and app development skills.
In this presentation, Sravani introduces SMAC and associated trends. Having already developed mobile applications using IBM’s BlueMix, Sravani's interest areas lie in the same domain along with Big Data Analytics.
In this presentation, Prateek introduces what he calls "Internet of Everything" and talks about building IoT applications that aid in water/energy conservation.
In this presentation, Sushmitha introduces IoT and associated trends. Sushmitha is interested in cloud computing which is one of the enablers of IoT. She also talks about fog computing which uses challenge questions for access control.
In this presentation, Surbhi introduces IoT and associated trends. Surbhi is interested in IoT applications in the health monitoring space where health is monitored real time using sensors and data is transmitted to doctors.
In this presentation, Vijaya introduces IoT and associated trends. Vijaya is interested in sensors and their applications in the home automation space.
In this presentation, Smriti introduces IoT and associated trends. Smriti talks about an innovative ides that uses IoT services and cloud application to check the health of laptop and automates messages to both the service centres and the owner.
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.
Harmish Doshi is a student at NMIMS University studying Information Technology. He is interested in the fields of SMAC - Social, Mobile, Analytics and Cloud. SMAC creates an ecosystem that allows businesses to improve operations and connect with customers. Social media has led to new ways for businesses and individuals to connect globally. Mobility has made rich digital content easily accessible through mobile devices. Analytics is used across industries to drive growth and improve operations. Cloud computing provides cost effectiveness, agility and flexibility for enterprises. Harmish is interested in mobility, cloud and social fields to strengthen relationships between industries and consumers and make applications more user-friendly.
In this presentation, Anil introduces automation and associated trends. Having attended workshops in automation testing space, his interest area lies in that domain.
In this presentation, Siddhi introduces SMAC and associated trends. Siddhi is interested in all things related to data including storage and classification.
3. Introduction
It is perceived by technologists
as pervasive/ ubiquitous
computing platform.
Semantically, “Internet of Things”
means “a world-wide network of
interconnected objects uniquely
addressable, based on standard
In short, IoT implies connecting
anything from any place at any
time for anyone.
Internet of Things is emerging as the third wave in the
development of Internet after fixed internet and mobile
internet.
4. • Theoretically, IOT is a ‘Graph data structure’ with all the real
objects/consumer products as its nodes and all of them inter-
connected through the wireless networks
It is an interaction and integration of
different technologies and human world
leading to smart objects having smart
applications in smart schools, homes,
offices, streets and cities
It has evolved from the convergence of
wireless technologies, micro-
electromechanical systems and Internet
As per the present scenario, IoT will take us beyond
connection to become part of living, moving global nervous
system
6. RFID TAGS FOR
FACILITATING
ROUTING,
INVENTORYING AND
LOSS PREVENTION
SURVEILLANCE,
SECURITY,
HEALTHCARE,
TRANSPORT, FOOD
SAFETY, DOCUMENT
MANAGEMENT
LOCATING PEOPLE
AND EVERYDAY
OBJECTS
DEMAND FOR
EXPEDITED
LOGISTICS
COST REDUCTION LEADING TO
DIFFUSION INTO II WAVE OF
APPLICATION
ABILITY OF DEVICES LOCATED
INDOORS TO RECEIVE
GEOLOGICAL SIGNALS
SUPPLY CHAIN HELPERS
VERTICAL MARKET APPLICATIONS
UBIQUITOUS POSITIONING
PHYSICAL WORLD WEB
SOFTWARE AGENTS & ADVANCED
SENSOR FUSION
TECHNOLOGY REACH
TELEOPERATION &
TELEPRESENCE ABILITY
TO MONITOR& CONTROL
OBJECTS
8. Interest Areas
Ambient
Intelligence : an
emerging discipline
Bringing
intelligence to our
everyday
environments and
making them
sensitive to us
Have a Past
experience of
designing a Mobile
Operated Door Lock
Interested to work
on home
automation using
ad hoc and sensor
networks connected
with internet
Main motive : Design
secure, intelligent ,
interconnected and
user-friendly
consumer electronics
In a maximum of two slides, explain what you understand by the topic that you have chosen
Please note that the topic that you choose has to be on one of the following:
Social, Mobile, Analytics and Cloud
Internet of Things
Automation