The document discusses the Internet of Everything (IoE), which intelligently connects people, processes, data, and things. It describes the evolution of IoE from IoT, outlines its key features and four pillars of people, processes, data, and things. Examples of IoE applications in healthcare, education, transportation, artificial intelligence, and customer experience are provided. The future of IoE is predicted to include more data collection and analysis through IoT devices to improve various domains like transportation, business, and public services through real-time insights.
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.
This document discusses key enabling technologies for the Internet of Things (IoT). It describes wireless sensor networks that use distributed sensor nodes to monitor environmental conditions. It also discusses cloud computing which provides on-demand computing resources and services over the Internet. Additionally, it covers big data analytics which involves collecting, processing, and analyzing large, diverse datasets. Finally, it mentions communication protocols that allow devices to exchange data over networks and embedded systems which are specialized computer systems designed to perform specific tasks.
The document defines Internet of Things (IoT) and describes how IoT works. IoT connects devices like sensors to the internet, allowing them to collect and transfer data without human involvement. Sensors collect live data which is sent to the cloud for processing and analysis. Processed data can then be accessed by users through interfaces like phone apps or web servers. The document discusses examples of IoT devices and applications, as well as challenges and advantages of IoT such as improved access to information, automation, and integration with technologies like AI.
The document discusses the Internet of Things (IoT). IoT refers to connecting everyday objects to the internet, allowing them to send and receive data. The number of connected IoT devices worldwide is projected to grow dramatically from 2015 to 2025. While IoT has the potential to transform how people live and work by making data-driven decisions, a breakdown in security could prevent IoT from realizing its full potential.
Smart cities applications using IOT and cloud-based Eng Ansam Hadi
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
The document discusses the Internet of Everything (IoE), which intelligently connects people, processes, data, and things. It describes the evolution of IoE from IoT, outlines its key features and four pillars of people, processes, data, and things. Examples of IoE applications in healthcare, education, transportation, artificial intelligence, and customer experience are provided. The future of IoE is predicted to include more data collection and analysis through IoT devices to improve various domains like transportation, business, and public services through real-time insights.
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.
This document discusses key enabling technologies for the Internet of Things (IoT). It describes wireless sensor networks that use distributed sensor nodes to monitor environmental conditions. It also discusses cloud computing which provides on-demand computing resources and services over the Internet. Additionally, it covers big data analytics which involves collecting, processing, and analyzing large, diverse datasets. Finally, it mentions communication protocols that allow devices to exchange data over networks and embedded systems which are specialized computer systems designed to perform specific tasks.
The document defines Internet of Things (IoT) and describes how IoT works. IoT connects devices like sensors to the internet, allowing them to collect and transfer data without human involvement. Sensors collect live data which is sent to the cloud for processing and analysis. Processed data can then be accessed by users through interfaces like phone apps or web servers. The document discusses examples of IoT devices and applications, as well as challenges and advantages of IoT such as improved access to information, automation, and integration with technologies like AI.
The document discusses the Internet of Things (IoT). IoT refers to connecting everyday objects to the internet, allowing them to send and receive data. The number of connected IoT devices worldwide is projected to grow dramatically from 2015 to 2025. While IoT has the potential to transform how people live and work by making data-driven decisions, a breakdown in security could prevent IoT from realizing its full potential.
Smart cities applications using IOT and cloud-based Eng Ansam Hadi
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
The document discusses the Internet of Things (IoT). It defines IoT as the concept of connecting physical objects to the internet and being able to identify, sense and communicate with those objects. It describes how IoT allows both people and devices to communicate with each other and exchange data. Some key applications of IoT mentioned are smart homes, smart cities, industrial automation, logistics and supply chain management. The document also outlines several challenges to the large-scale implementation of IoT such as issues relating to privacy, security, standardization, and developing energy sources for billions of connected devices.
All about Iot is here, the basic knowledge that may let you know about how things will work via wireless connectivity , as well as brief description of disadvantages and advantages of The Internet of Things.
The world has developed faster than humans even imagined it to. It is coming to a stage where almost everything is beginning to depend on internet. So, what exactly is Internet of Things? Anything and everything which can be assigned an IP address and provided the ability to transfer data can be branched under internet of things.
While it is still a human who operates a computer, when it comes to storing and remembering data, a computer might perform better. This being said, humans have become completely dependent on a system in every walk of their life. Some companies have utilized this opportunity and also leveraged it to derive profits. This has also helped people keep track of latest happenings, of things that they like and more.
This is a brief introduction on TQL, the IoT application platform from Atomiton. TQL is for IoT engineers and developers create powerful applications faster. See more at http://atomiton.com/products.html
The Internet of Things (IoT) refers to connecting physical devices like vehicles, appliances and other items to the internet. It allows these devices to collect and exchange data. IoT uses technologies like sensors, barcodes and wireless networks. Examples of current IoT applications include digital assistants, smart homes, agriculture monitoring and more. By 2020, it is estimated there will be around 50 billion connected devices. Key challenges for IoT include security, standardization between technologies, and ensuring privacy and efficiency. However, IoT also provides opportunities for new research, jobs, business models and more intelligent systems through global data collection and analysis.
In this presentation, Krati intrduces the concept of IoT and discusses technological as well as platform trends. She describes an innovative proposal to develop a smart mattress that will help in 'productive sleep'.
IoT Challenges: Technological, Business and Social aspectsRoberto Minerva
Internet of Things is promising to be a set of technologies able to have a high impact on how people live, produce, modify and interact with the environment. Such a transformation is driven by increasing technologies capabilities of sensors/actuators, communications, general-purpose hardware, availability of software and programmability of devices. The integration of so different technologies is a problem in itself and IoT is also trying to solve cogent issues of specific problem domains, such as e-health, transportation, manufacturing, and so on. Large IoT systems (e.g., smart cities) stand on their own because the smartness requires integration of different technologies, processes and different administrative domains creating the needs to deal with a complex system. In addition to technological and problem domain specific challenges, there exist further challenges that fall in business, social and regulation realms. They can greatly impact the deployment and the success of IoT deployment. The speech aims at providing a view on some major technologies challenges of IoT and to cover a few critical business and social issues that could hamper the large deployment of IoT systems by providing some examples of implementation.
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 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 discusses the Internet of Things (IoT). It defines IoT as a system of interconnected computing devices, machines, objects, animals, and people that are provided with unique identifiers and the ability to transfer data over a network. It notes that IoT affects different industries in various ways, such as helping manufacturing organizations track tools and machines. The document also outlines some challenges of IoT, such as managing the lifecycle of collected data and addressing security vulnerabilities. Finally, it explains that IoT works by assigning static IP addresses to connected objects and machines to enable them to share data over the Internet.
This document provides an introduction to IoT including definitions, characteristics, physical and logical designs, protocols, and deployment templates. It defines IoT as a global network of physical objects embedded with sensors and connectivity to exchange data over the internet. Key characteristics include being dynamic, self-configuring, using interoperable communication protocols, and having unique identities and integration into information networks. IoT devices can exchange or collect data to perform local or cloud-based processing. The document also outlines common IoT communication models, layers, and levels of deployment from single to multiple interconnected devices with local and cloud-based components.
The document discusses the key features and architecture of the Internet of Things (IoT). It describes IoT as connecting physical devices through sensors and software to collect and exchange data over networks. The key features discussed are artificial intelligence, interconnectivity, distributed processing, heterogeneity, interoperability, scalability, security, and dynamic changes. The basic IoT architecture includes sensor networks, gateways, and communication technologies to connect devices. Sensor networks gather data from various sensors, while gateways act as an interface between sensor networks and cloud/application services. Common wireless technologies enabling IoT device connectivity include RFID, WLAN, and short-range wireless protocols.
This PPT will give you an overview on "Introduction To Internet Of Things" What is IoT?, Why IoT?, Various IoT Technologies and Protocol, Applications of IoT, Future Scope and Possibility, Career Opportunities.
This is just a beginner PPT.
Don't forget to follow me on below social media handles:
Twitter: @SiddharthDayal1
Instagram: @technobot.siddharth.2526
Slides from a presentation for the South Australian Department of Education & Childrens’ Development – Luchtime Bytes Series.
WEB meets WORLD
Broadly defined as building connections between the virtual world and physical objects.
The Internet of Things (ioT) is comprised of many different technologies ranging from wireless communication, sensor networks, and various forms of computing to radio frequency identification (RFID)
This document discusses the Internet of Things (IoT) and how it relates to digital marketing. It defines IoT as physical devices connected to the internet that can transfer data without human interaction. By 2020, there will be 50 billion connected devices. IoT improves product development, data tracking, and customer personalization for digital marketing. Some challenges to IoT adoption are security, privacy, data volumes, power supply, and wireless communication standards. IoT can monitor things like vehicles, weather, inventory levels, and anganwadi (rural child care) households in India.
In this presentation, Tejaswi talks about the importance of establishing standards before achieving ground breaking innovation using Internet of Things.
In this presentation, Shiva introduces the topic of IoT and the associated trends. Mobile security is his interest area. His interest areas lie in designing energy efficient smart devices.
The document discusses the Internet of Things (IoT), which connects physical objects to the internet. It defines IoT as devices that can sense, compute and communicate over the internet, allowing physical objects to be controlled remotely and data from them to be collected. Examples discussed include connected home devices, wearable fitness trackers and medical devices. Key challenges discussed are connectivity, power management, security and interoperability when integrating physical objects on a large scale into the IoT.
This document discusses trends and areas of interest in Internet of Things (IoT). It notes that IoT builds on interest in big data and suggests the full potential of data. It predicts that enterprises will increasingly implement IoT solutions and that security will be a critical area of focus, especially with the widespread sharing of data between connected devices. Understanding privacy and security implications will be important as IoT continues to grow and interconnect more devices.
The document discusses the Internet of Things (IoT). It defines IoT as the concept of connecting physical objects to the internet and being able to identify, sense and communicate with those objects. It describes how IoT allows both people and devices to communicate with each other and exchange data. Some key applications of IoT mentioned are smart homes, smart cities, industrial automation, logistics and supply chain management. The document also outlines several challenges to the large-scale implementation of IoT such as issues relating to privacy, security, standardization, and developing energy sources for billions of connected devices.
All about Iot is here, the basic knowledge that may let you know about how things will work via wireless connectivity , as well as brief description of disadvantages and advantages of The Internet of Things.
The world has developed faster than humans even imagined it to. It is coming to a stage where almost everything is beginning to depend on internet. So, what exactly is Internet of Things? Anything and everything which can be assigned an IP address and provided the ability to transfer data can be branched under internet of things.
While it is still a human who operates a computer, when it comes to storing and remembering data, a computer might perform better. This being said, humans have become completely dependent on a system in every walk of their life. Some companies have utilized this opportunity and also leveraged it to derive profits. This has also helped people keep track of latest happenings, of things that they like and more.
This is a brief introduction on TQL, the IoT application platform from Atomiton. TQL is for IoT engineers and developers create powerful applications faster. See more at http://atomiton.com/products.html
The Internet of Things (IoT) refers to connecting physical devices like vehicles, appliances and other items to the internet. It allows these devices to collect and exchange data. IoT uses technologies like sensors, barcodes and wireless networks. Examples of current IoT applications include digital assistants, smart homes, agriculture monitoring and more. By 2020, it is estimated there will be around 50 billion connected devices. Key challenges for IoT include security, standardization between technologies, and ensuring privacy and efficiency. However, IoT also provides opportunities for new research, jobs, business models and more intelligent systems through global data collection and analysis.
In this presentation, Krati intrduces the concept of IoT and discusses technological as well as platform trends. She describes an innovative proposal to develop a smart mattress that will help in 'productive sleep'.
IoT Challenges: Technological, Business and Social aspectsRoberto Minerva
Internet of Things is promising to be a set of technologies able to have a high impact on how people live, produce, modify and interact with the environment. Such a transformation is driven by increasing technologies capabilities of sensors/actuators, communications, general-purpose hardware, availability of software and programmability of devices. The integration of so different technologies is a problem in itself and IoT is also trying to solve cogent issues of specific problem domains, such as e-health, transportation, manufacturing, and so on. Large IoT systems (e.g., smart cities) stand on their own because the smartness requires integration of different technologies, processes and different administrative domains creating the needs to deal with a complex system. In addition to technological and problem domain specific challenges, there exist further challenges that fall in business, social and regulation realms. They can greatly impact the deployment and the success of IoT deployment. The speech aims at providing a view on some major technologies challenges of IoT and to cover a few critical business and social issues that could hamper the large deployment of IoT systems by providing some examples of implementation.
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 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 discusses the Internet of Things (IoT). It defines IoT as a system of interconnected computing devices, machines, objects, animals, and people that are provided with unique identifiers and the ability to transfer data over a network. It notes that IoT affects different industries in various ways, such as helping manufacturing organizations track tools and machines. The document also outlines some challenges of IoT, such as managing the lifecycle of collected data and addressing security vulnerabilities. Finally, it explains that IoT works by assigning static IP addresses to connected objects and machines to enable them to share data over the Internet.
This document provides an introduction to IoT including definitions, characteristics, physical and logical designs, protocols, and deployment templates. It defines IoT as a global network of physical objects embedded with sensors and connectivity to exchange data over the internet. Key characteristics include being dynamic, self-configuring, using interoperable communication protocols, and having unique identities and integration into information networks. IoT devices can exchange or collect data to perform local or cloud-based processing. The document also outlines common IoT communication models, layers, and levels of deployment from single to multiple interconnected devices with local and cloud-based components.
The document discusses the key features and architecture of the Internet of Things (IoT). It describes IoT as connecting physical devices through sensors and software to collect and exchange data over networks. The key features discussed are artificial intelligence, interconnectivity, distributed processing, heterogeneity, interoperability, scalability, security, and dynamic changes. The basic IoT architecture includes sensor networks, gateways, and communication technologies to connect devices. Sensor networks gather data from various sensors, while gateways act as an interface between sensor networks and cloud/application services. Common wireless technologies enabling IoT device connectivity include RFID, WLAN, and short-range wireless protocols.
This PPT will give you an overview on "Introduction To Internet Of Things" What is IoT?, Why IoT?, Various IoT Technologies and Protocol, Applications of IoT, Future Scope and Possibility, Career Opportunities.
This is just a beginner PPT.
Don't forget to follow me on below social media handles:
Twitter: @SiddharthDayal1
Instagram: @technobot.siddharth.2526
Slides from a presentation for the South Australian Department of Education & Childrens’ Development – Luchtime Bytes Series.
WEB meets WORLD
Broadly defined as building connections between the virtual world and physical objects.
The Internet of Things (ioT) is comprised of many different technologies ranging from wireless communication, sensor networks, and various forms of computing to radio frequency identification (RFID)
This document discusses the Internet of Things (IoT) and how it relates to digital marketing. It defines IoT as physical devices connected to the internet that can transfer data without human interaction. By 2020, there will be 50 billion connected devices. IoT improves product development, data tracking, and customer personalization for digital marketing. Some challenges to IoT adoption are security, privacy, data volumes, power supply, and wireless communication standards. IoT can monitor things like vehicles, weather, inventory levels, and anganwadi (rural child care) households in India.
In this presentation, Tejaswi talks about the importance of establishing standards before achieving ground breaking innovation using Internet of Things.
In this presentation, Shiva introduces the topic of IoT and the associated trends. Mobile security is his interest area. His interest areas lie in designing energy efficient smart devices.
The document discusses the Internet of Things (IoT), which connects physical objects to the internet. It defines IoT as devices that can sense, compute and communicate over the internet, allowing physical objects to be controlled remotely and data from them to be collected. Examples discussed include connected home devices, wearable fitness trackers and medical devices. Key challenges discussed are connectivity, power management, security and interoperability when integrating physical objects on a large scale into the IoT.
This document discusses trends and areas of interest in Internet of Things (IoT). It notes that IoT builds on interest in big data and suggests the full potential of data. It predicts that enterprises will increasingly implement IoT solutions and that security will be a critical area of focus, especially with the widespread sharing of data between connected devices. Understanding privacy and security implications will be important as IoT continues to grow and interconnect more devices.
This document discusses the Internet of Things (IoT). It defines IoT as a worldwide network that connects physical objects through technologies like RFID, WiFi, sensors, and smartphones. The document outlines why IoT is useful to improve quality of life and drive new business opportunities. It also provides examples of IoT applications in areas like traffic monitoring, security, transport/logistics, and daily activities. Finally, the document discusses the future of IoT in developing world sensor networks, home automation, and improving daily life and health.
This document discusses the applications of the Internet of Things (IoT) in various industries such as education, food, retail, logistics, and pharmaceuticals. It then focuses on how IoT can improve logistics in the next 5 years by enabling real-time transparency, optimizing traffic flows, increasing throughput, automating processes, reducing wait times and emissions. The future of IoT for logistics is expected to increase speeds, decrease waste and reduce costs as devices communicate without human intervention to shape the future of the industry.
- The document discusses the Internet of Things (IoT) and states that we are at a tipping point for broader IoT adoption, with 53% of organizations planning to implement an IoT solution in the next 24 months. Organizations in Asia Pacific and Latin America are more aggressive, with 69% and 60% respectively planning implementation.
- It explains that harnessing data from events and assets through IoT technologies can provide insights to solve business challenges and drive innovation. Examples are given of IoT devices that can be worn on the body or embedded to track health, identify objects, and enhance activities.
IOT is connecting every physical object in the world using wireless technologies to track and control them from every where in the world...Every object is uniquely identified using ip addresses(IPv6)
The document describes various smart and connected devices for homes and consumers. It provides examples of Internet of Things devices such as a smart fork that monitors eating habits, a smart cup that tracks liquid consumption, and a smart toothbrush that engages users in their oral hygiene routine. It also lists devices for other activities like gardening, sports training, home security, pet care, and more that connect to smartphones and the Internet to provide remote access and data collection. The devices demonstrate how almost any everyday object can be made smart and integrated into the growing Internet of Things ecosystem.
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.
The document discusses the internet of things (IoT). It defines IoT as a system of interrelated computing devices, objects, animals, or people that are provided with unique identifiers and can transfer data over a network without requiring human-to-human or human-to-computer interaction. Things in IoT can be devices with sensors like fitness trackers or cars with sensors that alert drivers of low tire pressure. The document then covers components, working, applications, characteristics, advantages, and disadvantages of IoT.
The 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. Examples provided include devices that monitor health, farm animals, environmental sensors, and smart cars. The history of IoT is traced back to 1999 with RFID seen as an enabling technology. Current IoT works through capabilities like communication, sensing, processing and localization. Challenges and criticisms of IoT regarding privacy, security, and control are also outlined. The future of IoT is presented as adding billions more connected sensors to improve various areas of life.
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.
The Internet of Things (IoT) refers to the network of physical objects embedded with electronics, software, and sensors that allows them to connect, collect, and exchange data. IoT enables objects to be sensed and controlled remotely across existing network infrastructure, improving efficiency and economic benefit. Examples of connected devices include heart monitors, farm animal trackers, smart cars, and environmental sensors. These devices collect and share data using technologies like RFID, sensors, and networking. Major challenges to IoT adoption include issues with scalability, security, standardization, and software complexity, but solutions are being developed to address these challenges. Projections suggest IoT will have a $11 trillion economic impact by 2025 with 100 billion connected devices.
1) The Internet of Things (IoT) refers to the network of physical objects or 'things' embedded with electronics, software, sensors, and connectivity to enable the collection and exchange of data.
2) IoT allows objects to be sensed and controlled remotely via existing network infrastructure, creating opportunities to directly integrate the physical world with computer systems.
3) IoT includes a wide range of devices from sensors implanted in farm animals to automobiles to environmental monitoring devices that can autonomously exchange data to improve efficiency.
The document provides an overview of the Internet of Things (IoT), including:
- A definition of IoT as interconnected computing devices that can transfer data over a network without human interaction.
- An explanation of how IoT works with sensors collecting data that is sent to the cloud for processing and made available to users.
- Examples of IoT devices like smart lightbulbs and sensors, and potential benefits to organizations like cost savings and improved decision making.
- Applications such as smart homes/offices, connected cars, health devices, and smart cities, as well as challenges around security, data volumes, and standards.
The document defines the Internet of Things (IoT) and describes its key characteristics and components. The IoT refers to the network of physical objects embedded with sensors, software and other technologies to enable them to connect and exchange data with other devices and systems over the Internet. The main purpose of IoT devices is to generate real-time data that can be analyzed to create desired business outcomes. Common IoT devices include smart watches, refrigerators, security systems and more. The technologies that enable IoT include sensors, communication protocols, and data analytics software.
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 document discusses Internet of Things (IoT) and its key aspects. It defines IoT as connecting physical objects through sensors and software to exchange data over the internet. IoT devices collect and share sensor data by connecting to gateways and the cloud to be analyzed with minimal human intervention. The document outlines technologies like sensors, connectivity, cloud computing and AI that enable IoT. It also discusses challenges of IoT like scalability, security, data analytics and interoperability.
This document provides an overview of the Internet of Things (IoT), including its history, definition, how it works, examples of IoT devices, benefits to organizations, importance, applications, challenges, advantages, and disadvantages. IoT refers to the network of physical objects embedded with sensors and software that allows them to connect and exchange data. Key components of how IoT works include sensors that collect data, connectivity to transmit the data, data processing, and a user interface. IoT provides benefits like improved monitoring, customer experience, productivity, and revenue. However, challenges include security, software complexity, data volumes, and lack of compatibility standards.
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).
The document defines the Internet of Things (IoT) as a system of interconnected computing devices, mechanical and digital machines, objects, animals or people that can transfer data over a network without human interaction. It then explains how IoT works through sensors/devices that collect data, connectivity to transfer the data to the cloud, data processing, and a user interface. Some examples of IoT devices are given like smart lightbulbs, thermostats, and toys. The benefits of IoT for organizations are also outlined.
This document provides an overview of Internet of Things (IoT) by Himanshu Kumar Mohapatra, a 5th semester Computer Science student at Srinix College of Engineering, Balasore. It defines IoT, describes how IoT works using sensors, connectivity, data processing and user interfaces. Examples of IoT devices include smart lightbulbs, thermostats and activity trackers. Benefits to organizations include improved processes, customer experience and business decisions. Challenges include security, software complexity and device power supplies.
The document discusses the Internet of Things (IoT). It defines IoT as connecting everyday objects to the internet to provide smarter experiences for users. Examples include smart locks, cars, and appliances. Key characteristics of IoT include interconnectivity, intelligence, heterogeneity, and connectivity. Popular applications are smart homes, wearables, connected cars, smart retail, and healthcare. Challenges include privacy, security, data management, interoperability, cost versus usability, and device energy issues. The conclusion is that IoT will revolutionize the internet and significantly improve quality of life, though widespread adoption will take time.
The document defines and explains the Internet of Things (IoT). It discusses the history and definition of IoT, how IoT works through sensors, connectivity, data processing and user interfaces. Examples of IoT devices are given like smart lightbulbs, thermostats and connected cars. Benefits to organizations include monitoring processes, improving customer experience and making better decisions. Challenges include security, software complexity and power supply for devices. Advantages are access to information anywhere and automated tasks, while disadvantages include potential for hacking and managing large numbers of devices.
The document defines and discusses the Internet of Things (IoT). It provides a definition of IoT as interconnected devices that can transfer data over a network without human interaction. It then explains how IoT works through sensors that collect data, connectivity to transfer the data, data processing, and user interfaces. Examples of IoT devices are given like smart lightbulbs and thermostats. Benefits to organizations are outlined as well as the importance of IoT. Applications and challenges are also summarized.
The Internet of Things (IoT) describes the network of physical objects—“things”—that are embedded with sensors, software, and other technologies for the purpose of connecting and exchanging data with other devices and systems over the internet. These devices range from ordinary household objects to sophisticated industrial tools. With more than 7 billion connected IoT devices today, experts are expecting this number to grow to 10 billion by 2020 and 22 billion by 2025. Oracle has a network
The document defines and explains the Internet of Things (IoT). It discusses the history and definition of IoT, how IoT works through sensors, connectivity, data processing and user interfaces. Examples of IoT devices are given like smart lightbulbs, thermostats and connected cars. Benefits to organizations include monitoring processes, improving customer experience and making better decisions. Challenges include security, software complexity and power supply for devices. Advantages are access to information anywhere and automated tasks, while disadvantages include potential for hacking and managing large numbers of devices.
This document provides an overview of the Internet of Things (IoT), including its history, definition, how it works, examples of IoT devices, benefits to organizations, importance, applications, challenges, and advantages and disadvantages. It discusses how IoT works through sensors that collect data, connectivity to send data to the cloud, data processing, and user interfaces. Some key IoT applications mentioned include smart thermostats, connected cars, activity trackers, and smart cities. The document also outlines challenges around testing, security, software complexity, and data volumes, as well as advantages such as access to information from anywhere and automating tasks.
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, 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, 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.
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.
“An Outlook of the Ongoing and Future Relationship between Blockchain Technologies and Process-aware Information Systems.” Invited talk at the joint workshop on Blockchain for Information Systems (BC4IS) and Blockchain for Trusted Data Sharing (B4TDS), co-located with with the 36th International Conference on Advanced Information Systems Engineering (CAiSE), 3 June 2024, Limassol, Cyprus.
Securing your Kubernetes cluster_ a step-by-step guide to success !KatiaHIMEUR1
Today, after several years of existence, an extremely active community and an ultra-dynamic ecosystem, Kubernetes has established itself as the de facto standard in container orchestration. Thanks to a wide range of managed services, it has never been so easy to set up a ready-to-use Kubernetes cluster.
However, this ease of use means that the subject of security in Kubernetes is often left for later, or even neglected. This exposes companies to significant risks.
In this talk, I'll show you step-by-step how to secure your Kubernetes cluster for greater peace of mind and reliability.
Enchancing adoption of Open Source Libraries. A case study on Albumentations.AIVladimir Iglovikov, Ph.D.
Presented by Vladimir Iglovikov:
- https://www.linkedin.com/in/iglovikov/
- https://x.com/viglovikov
- https://www.instagram.com/ternaus/
This presentation delves into the journey of Albumentations.ai, a highly successful open-source library for data augmentation.
Created out of a necessity for superior performance in Kaggle competitions, Albumentations has grown to become a widely used tool among data scientists and machine learning practitioners.
This case study covers various aspects, including:
People: The contributors and community that have supported Albumentations.
Metrics: The success indicators such as downloads, daily active users, GitHub stars, and financial contributions.
Challenges: The hurdles in monetizing open-source projects and measuring user engagement.
Development Practices: Best practices for creating, maintaining, and scaling open-source libraries, including code hygiene, CI/CD, and fast iteration.
Community Building: Strategies for making adoption easy, iterating quickly, and fostering a vibrant, engaged community.
Marketing: Both online and offline marketing tactics, focusing on real, impactful interactions and collaborations.
Mental Health: Maintaining balance and not feeling pressured by user demands.
Key insights include the importance of automation, making the adoption process seamless, and leveraging offline interactions for marketing. The presentation also emphasizes the need for continuous small improvements and building a friendly, inclusive community that contributes to the project's growth.
Vladimir Iglovikov brings his extensive experience as a Kaggle Grandmaster, ex-Staff ML Engineer at Lyft, sharing valuable lessons and practical advice for anyone looking to enhance the adoption of their open-source projects.
Explore more about Albumentations and join the community at:
GitHub: https://github.com/albumentations-team/albumentations
Website: https://albumentations.ai/
LinkedIn: https://www.linkedin.com/company/100504475
Twitter: https://x.com/albumentations
In his public lecture, Christian Timmerer provides insights into the fascinating history of video streaming, starting from its humble beginnings before YouTube to the groundbreaking technologies that now dominate platforms like Netflix and ORF ON. Timmerer also presents provocative contributions of his own that have significantly influenced the industry. He concludes by looking at future challenges and invites the audience to join in a discussion.
TrustArc Webinar - 2024 Global Privacy SurveyTrustArc
How does your privacy program stack up against your peers? What challenges are privacy teams tackling and prioritizing in 2024?
In the fifth annual Global Privacy Benchmarks Survey, we asked over 1,800 global privacy professionals and business executives to share their perspectives on the current state of privacy inside and outside of their organizations. This year’s report focused on emerging areas of importance for privacy and compliance professionals, including considerations and implications of Artificial Intelligence (AI) technologies, building brand trust, and different approaches for achieving higher privacy competence scores.
See how organizational priorities and strategic approaches to data security and privacy are evolving around the globe.
This webinar will review:
- The top 10 privacy insights from the fifth annual Global Privacy Benchmarks Survey
- The top challenges for privacy leaders, practitioners, and organizations in 2024
- Key themes to consider in developing and maintaining your privacy program
GraphSummit Singapore | The Art of the Possible with Graph - Q2 2024Neo4j
Neha Bajwa, Vice President of Product Marketing, Neo4j
Join us as we explore breakthrough innovations enabled by interconnected data and AI. Discover firsthand how organizations use relationships in data to uncover contextual insights and solve our most pressing challenges – from optimizing supply chains, detecting fraud, and improving customer experiences to accelerating drug discoveries.
Communications Mining Series - Zero to Hero - Session 1DianaGray10
This session provides introduction to UiPath Communication Mining, importance and platform overview. You will acquire a good understand of the phases in Communication Mining as we go over the platform with you. Topics covered:
• Communication Mining Overview
• Why is it important?
• How can it help today’s business and the benefits
• Phases in Communication Mining
• Demo on Platform overview
• Q/A
Generative AI Deep Dive: Advancing from Proof of Concept to ProductionAggregage
Join Maher Hanafi, VP of Engineering at Betterworks, in this new session where he'll share a practical framework to transform Gen AI prototypes into impactful products! He'll delve into the complexities of data collection and management, model selection and optimization, and ensuring security, scalability, and responsible use.
Removing Uninteresting Bytes in Software FuzzingAftab Hussain
Imagine a world where software fuzzing, the process of mutating bytes in test seeds to uncover hidden and erroneous program behaviors, becomes faster and more effective. A lot depends on the initial seeds, which can significantly dictate the trajectory of a fuzzing campaign, particularly in terms of how long it takes to uncover interesting behaviour in your code. We introduce DIAR, a technique designed to speedup fuzzing campaigns by pinpointing and eliminating those uninteresting bytes in the seeds. Picture this: instead of wasting valuable resources on meaningless mutations in large, bloated seeds, DIAR removes the unnecessary bytes, streamlining the entire process.
In this work, we equipped AFL, a popular fuzzer, with DIAR and examined two critical Linux libraries -- Libxml's xmllint, a tool for parsing xml documents, and Binutil's readelf, an essential debugging and security analysis command-line tool used to display detailed information about ELF (Executable and Linkable Format). Our preliminary results show that AFL+DIAR does not only discover new paths more quickly but also achieves higher coverage overall. This work thus showcases how starting with lean and optimized seeds can lead to faster, more comprehensive fuzzing campaigns -- and DIAR helps you find such seeds.
- These are slides of the talk given at IEEE International Conference on Software Testing Verification and Validation Workshop, ICSTW 2022.
How to Get CNIC Information System with Paksim Ga.pptxdanishmna97
Pakdata Cf is a groundbreaking system designed to streamline and facilitate access to CNIC information. This innovative platform leverages advanced technology to provide users with efficient and secure access to their CNIC details.
Introducing Milvus Lite: Easy-to-Install, Easy-to-Use vector database for you...Zilliz
Join us to introduce Milvus Lite, a vector database that can run on notebooks and laptops, share the same API with Milvus, and integrate with every popular GenAI framework. This webinar is perfect for developers seeking easy-to-use, well-integrated vector databases for their GenAI apps.
UiPath Test Automation using UiPath Test Suite series, part 6DianaGray10
Welcome to UiPath Test Automation using UiPath Test Suite series part 6. In this session, we will cover Test Automation with generative AI and Open AI.
UiPath Test Automation with generative AI and Open AI webinar offers an in-depth exploration of leveraging cutting-edge technologies for test automation within the UiPath platform. Attendees will delve into the integration of generative AI, a test automation solution, with Open AI advanced natural language processing capabilities.
Throughout the session, participants will discover how this synergy empowers testers to automate repetitive tasks, enhance testing accuracy, and expedite the software testing life cycle. Topics covered include the seamless integration process, practical use cases, and the benefits of harnessing AI-driven automation for UiPath testing initiatives. By attending this webinar, testers, and automation professionals can gain valuable insights into harnessing the power of AI to optimize their test automation workflows within the UiPath ecosystem, ultimately driving efficiency and quality in software development processes.
What will you get from this session?
1. Insights into integrating generative AI.
2. Understanding how this integration enhances test automation within the UiPath platform
3. Practical demonstrations
4. Exploration of real-world use cases illustrating the benefits of AI-driven test automation for UiPath
Topics covered:
What is generative AI
Test Automation with generative AI and Open AI.
UiPath integration with generative AI
Speaker:
Deepak Rai, Automation Practice Lead, Boundaryless Group and UiPath MVP
A tale of scale & speed: How the US Navy is enabling software delivery from l...sonjaschweigert1
Rapid and secure feature delivery is a goal across every application team and every branch of the DoD. The Navy’s DevSecOps platform, Party Barge, has achieved:
- Reduction in onboarding time from 5 weeks to 1 day
- Improved developer experience and productivity through actionable findings and reduction of false positives
- Maintenance of superior security standards and inherent policy enforcement with Authorization to Operate (ATO)
Development teams can ship efficiently and ensure applications are cyber ready for Navy Authorizing Officials (AOs). In this webinar, Sigma Defense and Anchore will give attendees a look behind the scenes and demo secure pipeline automation and security artifacts that speed up application ATO and time to production.
We will cover:
- How to remove silos in DevSecOps
- How to build efficient development pipeline roles and component templates
- How to deliver security artifacts that matter for ATO’s (SBOMs, vulnerability reports, and policy evidence)
- How to streamline operations with automated policy checks on container images
Maruthi Prithivirajan, Head of ASEAN & IN Solution Architecture, Neo4j
Get an inside look at the latest Neo4j innovations that enable relationship-driven intelligence at scale. Learn more about the newest cloud integrations and product enhancements that make Neo4j an essential choice for developers building apps with interconnected data and generative AI.
Climate Impact of Software Testing at Nordic Testing DaysKari Kakkonen
My slides at Nordic Testing Days 6.6.2024
Climate impact / sustainability of software testing discussed on the talk. ICT and testing must carry their part of global responsibility to help with the climat warming. We can minimize the carbon footprint but we can also have a carbon handprint, a positive impact on the climate. Quality characteristics can be added with sustainability, and then measured continuously. Test environments can be used less, and in smaller scale and on demand. Test techniques can be used in optimizing or minimizing number of tests. Test automation can be used to speed up testing.
In the rapidly evolving landscape of technologies, XML continues to play a vital role in structuring, storing, and transporting data across diverse systems. The recent advancements in artificial intelligence (AI) present new methodologies for enhancing XML development workflows, introducing efficiency, automation, and intelligent capabilities. This presentation will outline the scope and perspective of utilizing AI in XML development. The potential benefits and the possible pitfalls will be highlighted, providing a balanced view of the subject.
We will explore the capabilities of AI in understanding XML markup languages and autonomously creating structured XML content. Additionally, we will examine the capacity of AI to enrich plain text with appropriate XML markup. Practical examples and methodological guidelines will be provided to elucidate how AI can be effectively prompted to interpret and generate accurate XML markup.
Further emphasis will be placed on the role of AI in developing XSLT, or schemas such as XSD and Schematron. We will address the techniques and strategies adopted to create prompts for generating code, explaining code, or refactoring the code, and the results achieved.
The discussion will extend to how AI can be used to transform XML content. In particular, the focus will be on the use of AI XPath extension functions in XSLT, Schematron, Schematron Quick Fixes, or for XML content refactoring.
The presentation aims to deliver a comprehensive overview of AI usage in XML development, providing attendees with the necessary knowledge to make informed decisions. Whether you’re at the early stages of adopting AI or considering integrating it in advanced XML development, this presentation will cover all levels of expertise.
By highlighting the potential advantages and challenges of integrating AI with XML development tools and languages, the presentation seeks to inspire thoughtful conversation around the future of XML development. We’ll not only delve into the technical aspects of AI-powered XML development but also discuss practical implications and possible future directions.
1. Internet Of
Things
Name: Karishma Talan
E-mail: karishmatalan@gmail.com
Twitter Id: @KarishmaTalan
University: Sant Gadge Baba University Amravati, MH
Year/Semester: 2nd Year
Branch: Computer science and Engineering
2. Introduction
• Internet Of Things is an effective communication between
things.
• These things can include any object ranging from a small pen
to big cars.
• It is expanded to an extent that living organism can be
considered as the part of the internet of things.
3. • In Internet of Things , intelligent devices such as
Passive RFID Tag, Smart Dust ,etc are connected
together in a large network with unique
accessibility .
• IoT exchanges data in a fraction of second and
also it consumes less power.
• It makes the human life more comfortable and it
helps to build a smarter world.
4. Trends
• IoT network will look to the skies for better
coverage.
• Wide-area wireless networks for connecting
Internet of Things devices may go global through
a partnership between hot IoT startup Sigfox and
aerospace company Airbus.
• Satellite data service can be made available in
almost any outdoor location but tends to cost
much more than land-based wireless
5. • Internet of Things Platform for Smart City, Home
Automation, Industrial Automation, and
Telecommunication .
• Opportunities exist in every industry as
organizations need more innovative ways to
harness ever-increasing amounts of data, and use
it to drive smarter decisions, enable new services
and business models, and reduce costs.
6. Interest Areas
• Internet of things in Medical and healthcare system.
• IoT devices can be used to enable remote health
monitoring and emergency notification systems.
These health monitoring devices can range from
blood pressure and heart rate monitors to advanced
devices capable of monitoring specialized implants,
such as pacemakers or advanced hearing aids.
• Specialized sensors can also be equipped within
living spaces to monitor the health and general well-
being of senior citizens, while also ensuring that
proper treatment is being administered and assisting
people regain lost mobility via therapy as well.
7. • Other consumer devices to encourage healthy
living, such as, connected scales or wearable
heart monitors, are also a possibility with the IoT.
• As health issues are increasing day by day, human
is facing challenging health related issues and
number of weird dieses are taking root in the
society, hence I would like to work with internet
of things in medical and health.
8. IoTAfter 5 Years
• In ITU people are working on a Packet based
service related network which is called as “Next
Generation Network”.
• devices will sense, speak, hear and at last it might
even start thinking.
• It will make people life easier and enterprises can
take benefits from such connected devices to
make their efficient product and strategy.
9.
10. WorkingProcessof Internetof Things
• In IoT architecture, devices can communicate
with each other by forming a network.
• These devices should have certain basic
capabilities namely sensing, data capture, data
storage, data processing and it should also be
uniquely accessible.
• In IoT devices can communicate with each other
directly or through a gateway.
• It manages resources, services and collects the
information for sending it according to
requirements of user.
12. Challenges for Internetof Things
• Connectivity and Identification
• Reliable and scalable Network
• Power management
• Security
• Multi device adoption
13. Applications of Internet of Things
• Smart marketing
• Smart Products
• Smart e-Health care
• Smart Automation
• Smart Pollution monitoring system
• Smart grid Technology