In this presentation, Ravi introduces the topic of IoT and associated trends. His interest area lies in application of IoT in intelligence, environmental monitoring and healthcare.
The Internet of Things (IoT) refers to connecting physical objects to the internet through sensors that allow them to transfer data. IoT works by giving objects unique identifiers, communication abilities through wireless technologies, and sensors like RFID tags. IoT has applications in areas like healthcare, smart home devices, traffic monitoring, and tracking market trends. While IoT provides benefits like monitoring energy usage and the environment, it also faces criticism around privacy and security concerns.
In this presentation, Akshay introduces the topic of IoT and associated trends. His interest areas include Web Search and mining, Google products,
information retrieval , Web data management, Web
intelligence and tools
Computer Science is an ever-changing field with new inventions each day. Here are the latest trends in the field of computer science which are making their mark in this era of digitization.
Source: http://www.techsparks.co.in
CUbRIK tutorial at ICWE 2013: part 1 Introduction to Human ComputationCUbRIK Project
2013, July 8
Part 1 of the tutorial illustrated at ICWE 2013, by Alessandro Bozzon (Delft University of Technology)
Crowdsourcing and human computation are novel disciplines that enable the design of computation processes that include humans as actors for task execution. In such a context, Games With a Purpose are an effective mean to channel, in a constructive manner, the human brainpower required to perform tasks that computers are unable to perform, through computer games. This tutorial introduces the core research questions in human computation, with a specific focus on the techniques required to manage structured and unstructured data. The second half of the tutorial delves into the field of game design for serious task, with an emphasis on games for human computation purposes. Our goal is to provide participants with a wide, yet complete overview of the research landscape; we aim at giving practitioners a solid understanding of the best practices in designing and running human computation tasks, while providing academics with solid references and, possibly, promising ideas for their future research activities.
In this presentation, Chittrieta introduces the topic of IoT, current applications of IoT and associated trends. Chittrieta's interest lies in application of IoT on the shop floor in the manufacturing vertical.
The Internet of Things (IoT) refers to connecting physical objects to the internet through sensors that allow them to transfer data. IoT works by giving objects unique identifiers, communication abilities through wireless technologies, and sensors like RFID tags. IoT has applications in areas like healthcare, smart home devices, traffic monitoring, and tracking market trends. While IoT provides benefits like monitoring energy usage and the environment, it also faces criticism around privacy and security concerns.
In this presentation, Akshay introduces the topic of IoT and associated trends. His interest areas include Web Search and mining, Google products,
information retrieval , Web data management, Web
intelligence and tools
Computer Science is an ever-changing field with new inventions each day. Here are the latest trends in the field of computer science which are making their mark in this era of digitization.
Source: http://www.techsparks.co.in
CUbRIK tutorial at ICWE 2013: part 1 Introduction to Human ComputationCUbRIK Project
2013, July 8
Part 1 of the tutorial illustrated at ICWE 2013, by Alessandro Bozzon (Delft University of Technology)
Crowdsourcing and human computation are novel disciplines that enable the design of computation processes that include humans as actors for task execution. In such a context, Games With a Purpose are an effective mean to channel, in a constructive manner, the human brainpower required to perform tasks that computers are unable to perform, through computer games. This tutorial introduces the core research questions in human computation, with a specific focus on the techniques required to manage structured and unstructured data. The second half of the tutorial delves into the field of game design for serious task, with an emphasis on games for human computation purposes. Our goal is to provide participants with a wide, yet complete overview of the research landscape; we aim at giving practitioners a solid understanding of the best practices in designing and running human computation tasks, while providing academics with solid references and, possibly, promising ideas for their future research activities.
In this presentation, Chittrieta introduces the topic of IoT, current applications of IoT and associated trends. Chittrieta's interest lies in application of IoT on the shop floor in the manufacturing vertical.
In this presentation, Utkarsh introduces the concept of IoT and discusses trends.He is interested in using IoT applications on Smart Homes/appliances and security.
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.
This document discusses Internet of Things (IoT). It defines IoT as connecting physical objects to the Internet through sensors and giving them unique identifiers. It notes IoT has evolved from converging wireless technologies, microchips, and the Internet. The document lists common IoT protocols, domains, sensor types, and trends showing increasing connectivity. It predicts IoT will double connected devices by 2022 and expand to new domains. Finally, it expresses interest in using IoT for remote industrial maintenance, supply chain optimization, and infrastructure management to reduce costs.
Internet of Things and Data Analytics for Smart Cities and eHealthPayamBarnaghi
Here are a few key things Watson can do to help with medical decision making:
- Analyze vast amounts of structured and unstructured data from medical records, research papers, clinical studies and more to find relevant information for a patient's case. This helps physicians get a more comprehensive view.
- Search for and read through medical literature very quickly to stay up to date on the latest research, treatments and recommendations.
- Consider all aspects of a patient's history, symptoms, test results, family history and more to suggest possible diagnoses and treatment options.
- Explain its findings and reasoning to help physicians understand why it recommends certain options over others. The explanations can help physicians verify recommendations.
- Adapt its knowledge over
In this presentation, Harsh introduces IoT and associated trends. Harsh has already done a project on weather monitoring with ISRO, his interest areas lie in Home automation and Healthcare.
This document provides an overview of the Internet of Things (IoT). It defines IoT as a proposed development where everyday objects are connected to the internet and able to send and receive data. The document then describes the key components of IoT including sensors, gateways, network infrastructure, management services, and applications. It provides examples of current IoT applications in areas like smart cities, healthcare, agriculture, and retail. Finally, it discusses the future potential for expanded IoT applications in smart homes, smart energy grids, and smart factories.
In this presentation, Nikitha introduces the concept of IoT and associated trends.Her interest lies in developing centralized management systems to control IoT devices remotely
Research Issues, Challenges and Directions in IoT (Internet of Things)Praveen Hanchinal
Presentation focuses on Research Issues, Challenges and Directions in IoT (Internet of Things) at This Presentation was presented at Kongu Engineering College, Erode, India
IoT: Ongoing challenges and opportunities in Mobile TechnologyAI Publications
Mobile technology opens the door for a new kind of learning called here and now learning that occurs when learners have access to information anytime and anywhere to perform authentic activities in the context of their learning. Mobile devices, applications and services have become integrated into people's daily lives on a personal and professional level. The purpose of this study was to investigate challenges &opportunities of IoT in mobile technology. The paper is divided in 5 sections and the content of the paper covers the history, elements, challenges and opportunities salong with future of IoT specific to Indian Mobile arena.
In this presentation, Manish introduces the concept of IoT and associated trends.His interest lies in merging IoT and nanotech to convert real life to a VR type reality.
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.
In this presentation, Deepika introduces IoT and associated trends. Deepika is interested in providing security to IoT devices and data stored in the cloud.
This document introduces the fundamental concepts of the Internet of Things (IoT). It discusses the history and key enabling technologies of IoT, including RFID, sensors, and smart technologies. The document also outlines various applications of IoT such as smart cities, healthcare, manufacturing, and more. Finally, it acknowledges challenges with IoT implementation, such as issues with privacy, data storage, and identity.
Artificial intelligence is the science and engineering of creating intelligent machines, especially intelligent computer programs. The document discusses AI, its branches including logical AI, search, pattern recognition, and learning from experience. Applications of AI mentioned are gaming, speech recognition, computer vision, and medical diagnosis. The paper also discusses the future of the intelligent wireless web, which will merge next generation internet with Internet2, experiment with interactive intelligent programs using speech recognition, and improve connectivity through wireless devices.
Invited talk to the CloudTech2017 International conference held in Rabat, Morocco between October 24th - October 26th.
Pr. Radouane Mrabet, ENSIAS, Mohammed V University, Rabat, Morocco.
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.
This document summarizes an Internet of Things project by student Shreya R. It includes an introduction defining IoT and noting its use of sensors and connectivity. Trends are discussed around IoT becoming a third wave of the internet and changing personal and work lives through applications like smart cities and device integration. The student's interests are also summarized, focusing on IoT security concerns with interconnected devices and using machine learning to enable effective device interaction.
The document provides an overview of the Internet of Things (IoT) in 3 sentences:
The Internet of Things (IoT) connects physical objects through sensors, software and network connectivity which allows these "things" to collect and exchange data between other devices. The document outlines what IoT is, how it works, current applications and challenges, and the future potential of a world where many everyday objects are connected to the internet and able to send and receive data. The increasing interconnectivity of physical objects through technologies like RFID, sensors and networking promises both benefits and risks relating to privacy, security, and how IoT may influence human behavior.
An Overview of Internet of Things (IoT): From Literature Survey to Applicatio...IRJET Journal
This document provides an overview of the Internet of Things (IoT) through a literature review. It discusses how IoT aims to connect all physical objects to the internet through sensors and networking capabilities, allowing objects to collect and share data and be remotely monitored and controlled. This enables new applications and opportunities across various sectors like transportation, utilities, manufacturing and consumer services. The document also outlines the vision for IoT, where nearly all physical objects would be integrated into the network, resulting in a major increase in data collection and opportunities for machine learning and automated systems. It further discusses how IoT relies on continued advances in microelectronics, communications and information technologies.
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.
Study on Fog Computing and Data Concurrency in IoT. Includes an analysis of different data concurrency techniques, their principle and some recent developments in the area. Also covers the topic of Fog Computing and its development and application in IoT.
In this presentation, Utkarsh introduces the concept of IoT and discusses trends.He is interested in using IoT applications on Smart Homes/appliances and security.
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.
This document discusses Internet of Things (IoT). It defines IoT as connecting physical objects to the Internet through sensors and giving them unique identifiers. It notes IoT has evolved from converging wireless technologies, microchips, and the Internet. The document lists common IoT protocols, domains, sensor types, and trends showing increasing connectivity. It predicts IoT will double connected devices by 2022 and expand to new domains. Finally, it expresses interest in using IoT for remote industrial maintenance, supply chain optimization, and infrastructure management to reduce costs.
Internet of Things and Data Analytics for Smart Cities and eHealthPayamBarnaghi
Here are a few key things Watson can do to help with medical decision making:
- Analyze vast amounts of structured and unstructured data from medical records, research papers, clinical studies and more to find relevant information for a patient's case. This helps physicians get a more comprehensive view.
- Search for and read through medical literature very quickly to stay up to date on the latest research, treatments and recommendations.
- Consider all aspects of a patient's history, symptoms, test results, family history and more to suggest possible diagnoses and treatment options.
- Explain its findings and reasoning to help physicians understand why it recommends certain options over others. The explanations can help physicians verify recommendations.
- Adapt its knowledge over
In this presentation, Harsh introduces IoT and associated trends. Harsh has already done a project on weather monitoring with ISRO, his interest areas lie in Home automation and Healthcare.
This document provides an overview of the Internet of Things (IoT). It defines IoT as a proposed development where everyday objects are connected to the internet and able to send and receive data. The document then describes the key components of IoT including sensors, gateways, network infrastructure, management services, and applications. It provides examples of current IoT applications in areas like smart cities, healthcare, agriculture, and retail. Finally, it discusses the future potential for expanded IoT applications in smart homes, smart energy grids, and smart factories.
In this presentation, Nikitha introduces the concept of IoT and associated trends.Her interest lies in developing centralized management systems to control IoT devices remotely
Research Issues, Challenges and Directions in IoT (Internet of Things)Praveen Hanchinal
Presentation focuses on Research Issues, Challenges and Directions in IoT (Internet of Things) at This Presentation was presented at Kongu Engineering College, Erode, India
IoT: Ongoing challenges and opportunities in Mobile TechnologyAI Publications
Mobile technology opens the door for a new kind of learning called here and now learning that occurs when learners have access to information anytime and anywhere to perform authentic activities in the context of their learning. Mobile devices, applications and services have become integrated into people's daily lives on a personal and professional level. The purpose of this study was to investigate challenges &opportunities of IoT in mobile technology. The paper is divided in 5 sections and the content of the paper covers the history, elements, challenges and opportunities salong with future of IoT specific to Indian Mobile arena.
In this presentation, Manish introduces the concept of IoT and associated trends.His interest lies in merging IoT and nanotech to convert real life to a VR type reality.
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.
In this presentation, Deepika introduces IoT and associated trends. Deepika is interested in providing security to IoT devices and data stored in the cloud.
This document introduces the fundamental concepts of the Internet of Things (IoT). It discusses the history and key enabling technologies of IoT, including RFID, sensors, and smart technologies. The document also outlines various applications of IoT such as smart cities, healthcare, manufacturing, and more. Finally, it acknowledges challenges with IoT implementation, such as issues with privacy, data storage, and identity.
Artificial intelligence is the science and engineering of creating intelligent machines, especially intelligent computer programs. The document discusses AI, its branches including logical AI, search, pattern recognition, and learning from experience. Applications of AI mentioned are gaming, speech recognition, computer vision, and medical diagnosis. The paper also discusses the future of the intelligent wireless web, which will merge next generation internet with Internet2, experiment with interactive intelligent programs using speech recognition, and improve connectivity through wireless devices.
Invited talk to the CloudTech2017 International conference held in Rabat, Morocco between October 24th - October 26th.
Pr. Radouane Mrabet, ENSIAS, Mohammed V University, Rabat, Morocco.
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.
This document summarizes an Internet of Things project by student Shreya R. It includes an introduction defining IoT and noting its use of sensors and connectivity. Trends are discussed around IoT becoming a third wave of the internet and changing personal and work lives through applications like smart cities and device integration. The student's interests are also summarized, focusing on IoT security concerns with interconnected devices and using machine learning to enable effective device interaction.
The document provides an overview of the Internet of Things (IoT) in 3 sentences:
The Internet of Things (IoT) connects physical objects through sensors, software and network connectivity which allows these "things" to collect and exchange data between other devices. The document outlines what IoT is, how it works, current applications and challenges, and the future potential of a world where many everyday objects are connected to the internet and able to send and receive data. The increasing interconnectivity of physical objects through technologies like RFID, sensors and networking promises both benefits and risks relating to privacy, security, and how IoT may influence human behavior.
An Overview of Internet of Things (IoT): From Literature Survey to Applicatio...IRJET Journal
This document provides an overview of the Internet of Things (IoT) through a literature review. It discusses how IoT aims to connect all physical objects to the internet through sensors and networking capabilities, allowing objects to collect and share data and be remotely monitored and controlled. This enables new applications and opportunities across various sectors like transportation, utilities, manufacturing and consumer services. The document also outlines the vision for IoT, where nearly all physical objects would be integrated into the network, resulting in a major increase in data collection and opportunities for machine learning and automated systems. It further discusses how IoT relies on continued advances in microelectronics, communications and information technologies.
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.
Study on Fog Computing and Data Concurrency in IoT. Includes an analysis of different data concurrency techniques, their principle and some recent developments in the area. Also covers the topic of Fog Computing and its development and application in IoT.
This document provides an overview of the Internet of Things (IoT). It defines IoT as the network of physical objects embedded with sensors that can collect and exchange data. It describes how IoT works through technologies like RFID, sensors, and embedded processing. It also outlines current and future applications of IoT such as smart homes, healthcare, and more. The document discusses both the potential benefits of IoT as well as challenges and criticisms around issues like privacy, security, and environmental impact.
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.
Application and Usefulness of Internet of Things in Information TechnologyDr. Amarjeet Singh
The Internet of Things (IoT) is a system of
interrelated computing devices, mechanical and digital
machines, objects, animals or people that are provided with
unique identifiers and the ability to transfer data over a
network without requiring human-to-human or human-tocomputer interaction. It is an ambiguous term, but it is fast
becoming a tangible technology that can be applied in data
centers to collect information on just about anything that
IT wants to control. IoT has evolved from the convergence
of wireless technologies, micro-electromechanical systems
(MEMS), microservices and the internet. The convergence
has helped tear down the silo walls between operational
technology (OT) and information technology (IT), allowing
unstructured machine-generated data to be analyzed for
insights that will drive improvements. The Internet of
Things (IoT) is essentially a system of machines or objects
outfitted with data-collecting technologies so that those
objects can communicate with one another. The machineto-machine (M2M) data that is generated has a wide range
of uses, but is commonly seen as a way to determine the
health and status of things -- inanimate or living.
This document provides an overview of the Internet of Things (IoT). It begins with defining IoT as the network of physical objects embedded with sensors that can collect and exchange data. It then outlines how IoT works through technologies like communication, identification, sensing and embedded processing. The document discusses the current status and future prospects of IoT, as well as examples of applications in various industries. It also covers challenges of IoT related to issues like scalability, standardization and data volumes. In conclusion, the document notes criticisms around privacy, security and how IoT may influence human decision making.
This document provides an overview of the Internet of Things (IoT). It begins with definitions of IoT and describes how it works by connecting physical objects through sensors, software and network connectivity. It then discusses the current status and future prospects of IoT, including applications in various industries. The document outlines some of the technological challenges of IoT, such as scalability, standardization, and data volumes. It also notes some criticisms around privacy, security and how IoT could impact human behavior. In closing, it thanks the audience and provides references for further information.
This document provides an overview of the Internet of Things (IoT). It begins with definitions of IoT and describes how it works by connecting physical objects through sensors, software and network connectivity. It then discusses the current status and future prospects of IoT, including applications in various industries. The document outlines some of the technological challenges of IoT, such as scalability, standardization, and data volumes. It also notes some criticisms around privacy, security and how IoT could impact human behavior. In closing, it thanks the audience and provides references for further information.
Internet of things (IOT) connects physical to digitalEslam Nader
1) The document discusses the topic of Internet of Things (IoT). It defines IoT as a network of physical objects embedded with sensors that can collect and exchange data.
2) The document outlines some key characteristics of IoT including connectivity, data collection, communication, intelligence, and action. It also discusses how IoT works by collecting data via sensors, communicating data through networks, analyzing the data, and taking action.
3) Several potential research topics in IoT are proposed, including applying deep learning for intrusion detection in IoT networks, finding dead zones in large IoT networks, and developing governance models for machine learning algorithms within IoT.
IRJET- Enabling Distributed Intelligence Assisted Future Internet of thing Co...IRJET Journal
This document proposes a new approach called the Future IoT Controller (FITC) that utilizes edge computing to provide distributed intelligence and low-latency insights for IoT applications. The FITC would be located at the network edge between IoT devices and the cloud to offer local intelligence through techniques like reinforcement learning. This would help reduce issues with cloud-based solutions like high latency, network loads, and inability to handle uncertain situations. The approach was tested in a simulated smart home environment and showed the feasibility of the FITC in providing faster responses, reducing rule complexity, and enabling predictions through learning from experiences at the edge.
This document provides an overview of the Internet of Things (IoT) and its applications as lecture notes for a B.Tech course. It covers the fundamentals of IoT including enabling technologies, architecture, and functional components. It also discusses IoT access technologies, protocols, design methodology, hardware platforms, data analytics, supporting services, and various industrial and real-world case studies of IoT applications. The objectives of the course are to study the basics of IoT, its architecture, design principles, hardware platforms, data analytics, and industrial applications.
This document provides an overview of the Internet of Things (IoT) and its applications as lecture notes for a B.Tech course. It covers the fundamentals of IoT including enabling technologies, architecture, and functional components. It also discusses IoT access technologies, protocols, design methodology, hardware platforms, data analytics, supporting services, and various industrial and real-world case studies of IoT applications. The objectives of the course are to study the basics of IoT, its architecture, design principles, hardware platforms, data analytics, and industrial applications.
This document provides an overview of Internet of Things (IoT) and its applications as a course for B.Tech students. It discusses key topics that will be covered in the course, including fundamentals of IoT, IoT protocols, design and development methodology, data analytics and supporting services, and case studies of industrial IoT applications. The course aims to help students understand the basics of IoT, implement IoT architectures, learn about hardware platforms and data analysis, and compare real-world IoT applications in industry. It provides objectives, outlines of content for each of the 5 units, and expected learning outcomes.
IoT & Applications Digital Notes (1).pdfssusere169ea1
This document provides an overview of the Internet of Things (IoT) and its applications as lecture notes for a B.Tech course. It covers the fundamentals of IoT including enabling technologies, architecture, sensors, actuators and connecting smart objects. It also discusses IoT protocols, design and development methodology, data analytics and supporting services. Finally, it examines various IoT case studies and industrial applications. The document is intended to educate students on the key concepts and components of IoT systems and their real-world uses.
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.
IRJET- Fourth Coming Internet: The Internet of ThingsIRJET Journal
This document discusses the concept of the Internet of Things (IoT) and its potential architecture. It begins by defining IoT as connecting physical objects through technologies like RFID, allowing objects to communicate with each other and be monitored remotely. It then discusses how IoT will expand communication beyond just human-to-human to include human-to-object and object-to-object. The document proposes an architecture for IoT including edge technologies like sensors to connect physical objects, as well as a service-oriented design and ability to interface with various networks. It acknowledges challenges in scaling such an architecture as more objects connect and exchange data.
Internet of Things - Recent developments and TrendsDennis Jacob
The document discusses Internet of Things (IoT), providing an introduction and overview. It defines IoT as the network of physical devices embedded with sensors and connectivity that allows them to exchange data via the internet. The document outlines some key enabling technologies for IoT like RFID, wireless sensor networks, middleware, and presentation tools. It also discusses some common challenges for IoT like security and privacy issues. Examples of major IoT applications are given in areas like smart cities, healthcare, home automation, and industrial control. In conclusion, the document states that IoT has the potential to enhance services across many sectors and will likely become widespread in the coming decade as the necessary technologies continue to develop.
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, 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.
Observability Concepts EVERY Developer Should Know -- DeveloperWeek Europe.pdfPaige Cruz
Monitoring and observability aren’t traditionally found in software curriculums and many of us cobble this knowledge together from whatever vendor or ecosystem we were first introduced to and whatever is a part of your current company’s observability stack.
While the dev and ops silo continues to crumble….many organizations still relegate monitoring & observability as the purview of ops, infra and SRE teams. This is a mistake - achieving a highly observable system requires collaboration up and down the stack.
I, a former op, would like to extend an invitation to all application developers to join the observability party will share these foundational concepts to build on:
Unlock the Future of Search with MongoDB Atlas_ Vector Search Unleashed.pdfMalak Abu Hammad
Discover how MongoDB Atlas and vector search technology can revolutionize your application's search capabilities. This comprehensive presentation covers:
* What is Vector Search?
* Importance and benefits of vector search
* Practical use cases across various industries
* Step-by-step implementation guide
* Live demos with code snippets
* Enhancing LLM capabilities with vector search
* Best practices and optimization strategies
Perfect for developers, AI enthusiasts, and tech leaders. Learn how to leverage MongoDB Atlas to deliver highly relevant, context-aware search results, transforming your data retrieval process. Stay ahead in tech innovation and maximize the potential of your applications.
#MongoDB #VectorSearch #AI #SemanticSearch #TechInnovation #DataScience #LLM #MachineLearning #SearchTechnology
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.
Pushing the limits of ePRTC: 100ns holdover for 100 daysAdtran
At WSTS 2024, Alon Stern explored the topic of parametric holdover and explained how recent research findings can be implemented in real-world PNT networks to achieve 100 nanoseconds of accuracy for up to 100 days.
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.
Dr. Sean Tan, Head of Data Science, Changi Airport Group
Discover how Changi Airport Group (CAG) leverages graph technologies and generative AI to revolutionize their search capabilities. This session delves into the unique search needs of CAG’s diverse passengers and customers, showcasing how graph data structures enhance the accuracy and relevance of AI-generated search results, mitigating the risk of “hallucinations” and improving the overall customer journey.
GraphSummit Singapore | The Future of Agility: Supercharging Digital Transfor...Neo4j
Leonard Jayamohan, Partner & Generative AI Lead, Deloitte
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Internet of Things
1. TOPIC
INTERNET OF THINGS
Name : Ravi Kumar Rajak
E-mail : ravirjk@gmail.com
Twitter Id : @ravirjk
University : National Institute of Technology , Durgapur
Year/Semester : 6th Semester
Branch : Computer Science and Engineering
2. INTRODUCTION
The Internet of Things (IoT) is the network of physical objects or
things embedded with electronics, software, sensors and
connectivity to enable it to achieve greater value and service by
exchanging data with the manufacturer, operator and/or other
connected devices. Each thing is uniquely identifiable through its
embedded computing system but is able to interoperate within the
existing internet infrastructure.
3. The Internet of Things (IoT) is a scenario in which objects,
animals or people are provided with unique identifiers and the
ability to transfer data over a network without requiring
human-to-human or human-to-computer interaction. IoT has
evolved from the convergence of wireless technologies, micro-
electromechanical systems and the Internet.
A thing, in the Internet of Things, can be a person with a heart
monitor implant, a farm animal with a biochip transponder, an
automobile that has built-in sensors to alert the driver when
tire pressure is low or any other natural or man-made object
that can be assigned an IP address and provided with the ability
to transfer data over a network. So far, the Internet of Things
has been most closely associated with machine-to-machine
(M2M) communication in manufacturing and power, oil and gas
utilities. Products built with M2M communication capabilities
4. TRENDS
Architecture : Building on top of the Internet of Things, the Web of
Things is an architecture for the application layer of the Internet of
Things looking at the convergence of data from IoT devices into Web
applications to create innovative use-cases. Some researchers argue that
sensor networks are the most essential components of the Internet of
Things.
Intelligence : There is a shift in research to integrate the concepts of the
Internet of Things and autonomous control, with initial outcomes
towards this direction considering objects as the driving force for
autonomous IoT. Autonomous behavior through collecting and reasoning
context information plays a significant role in IoT.
Size Considerations : The Internet of objects would encode 50 to 100
trillion objects, and be able to follow the movement of those objects.
5. Space Considerations : In an Internet of Things, the precise geographic
location of a thing and also the precise geographic dimensions of a thing
will be critical. Open Geospatial Consortium, "OGC Abstract
Specification" Currently, the Internet has been primarily used to manage
information processed by people. Therefore, facts about a thing, such as
its location in time and space, have been less critical to track because the
person processing the information can decide whether or not that
information was important to the action being taken, and if so, add the
missing information.
A Basket of Remotes : The most likely problem will be the "Basket of
remotes" problem, where we'll have hundreds of applications to interface
with hundreds of devices that don't share protocols for speaking with one
another.
I expect that in the field of Intelligence and Architecture, IoT would make a
big impact in the future coming years. As we are making this world modern
6. INTEREST AREAS
I would like to work on Unique Addressability of Things,
Environmental Monitoring, Intelligence and Medical and
Healthcare Systems. As these applications were important and
IoT would have a big impact over them.
According to me, research is the way of enhancing your
practical knowledge and converting your theoretical knowledge
to practical one. I want to develop applications which makes
more easier for users and can interface with less errors.
I would like to learn basics in any one of the specified area and
take an opportunity to work on some project with practical
knowledge.