In this presentation, Parul introduces IoT and gives examples of interesting applications in that space. Parul is interested in data management and insights that come out of IoT clas devices.
The document discusses Internet of Things (IoT). It defines IoT as the network of physical objects embedded with sensors, software and connectivity that allows them to collect and exchange data. The document outlines the history of IoT and how it works by connecting physical objects through various technologies like RFID, sensors and wireless networks. It provides examples of applications of IoT in various domains like healthcare, transportation, manufacturing etc. It also discusses the current status and future prospects of IoT along with technological challenges and criticisms around privacy, security and control issues.
Multisoft Virtual Academy offers IoT courses that are tailored by industry experts to impart in-depth knowledge of concepts such as IoT framework, IoT ecosystem, IoT solution architecture, networking protocols and application layer protocols. According to Glassdoor, the average salary for trained and certified IoT professionals is around $1, 50,000 per year. At Multisoft, certified experts make sure that participants understand the core of IoT while developing IoT solutions using sensors and components integration and implementing IoT in Big Data, and also understand the utilization of extracted data. IoT certification online training is crafted to provide participants with a career boost and teach them how technology has affected the world and will continue to do so in the coming years. https://www.multisoftvirtualacademy.com/iot/
Iot: Introduction ,architecture ,application especially engineering ,software,hardware,protocols and challenges
nodered software code for Iot simulation
In this presentation, Yashwanth introduces the concept of Internet of Things and the associated trends. His interest area is to build a unified architecture so that the IoT devices manufactured by different firms can talk to each other.
The document discusses the Internet of Things (IoT). It provides examples of IoT devices like smart homes, smart locks, and smart mirrors. It outlines advantages like convenience, tracking capabilities, and cost savings. Disadvantages include lack of compatibility standards, complexity, privacy/security risks, and potential safety issues if devices are hacked. Finally, it briefly profiles several IoT companies like ARM, Bosch, and Ericsson that are helping enable the connection of billions of devices through sensors and networking.
INTERNET OF THING PRESENTATION ON PUBLIC SPEAKINGAYESHA JAVED
The document discusses the Internet of Things (IoT). It defines IoT as a network of physical objects embedded with electronics, software, and sensors that can collect and exchange data. The document outlines the history, life cycle, characteristics, applications, and market for IoT. It examines examples like glucose monitors, smart washing machines, and smart home security. The market for IoT devices is expected to grow significantly by 2020. The document ends with recommendations for accommodating IoT security within existing practices like policies, procedures, awareness training, and vulnerability management.
The document discusses the Internet of Things (IoT). It defines IoT as a system of interconnected devices, machines, objects, animals, and people that can transfer data over a network without human interaction. The document notes that IoT allows everyday objects to gather and share sensor data. It provides examples of application areas for IoT like smart homes, wearables, healthcare, and vehicles. Finally, it acknowledges that the future of IoT is promising as the technology continues to develop new possibilities.
Internet of Things(IoT) - Introduction and Research Areas for ThesisWriteMyThesis
Internet of Things(IoT) is the latest technology making its presence felt in the world. There are various research areas for IoT thesis for M.Tech and Ph.D. Find out the latest topics for thesis and research here.
This presentation gives a high level view of Internet of Things and where it stands today. It also contains a slide on how a Temperature Logger was built out using Arduino, Python and the Google Cloud Platform.
In this presentation, Divya introduces IoT and associated trends. Natasha is interested in IoT applications in the domains of smart cities and pollution reporting.
The internet of things (IoT) is the internetworking of physical devices, vehicles, buildings and other items—embedded with electronics, software, sensors, actuators, and network connectivity that enable these objects to collect and exchange data.
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 the collection and exchange of data. Key components that drive IoT include sensors that detect information, connectivity that allows communication over the internet, and people and processes that analyze and take action based on the data. Some advantages of IoT are more efficient resource utilization, minimized human effort through automation, and time savings. The document outlines current and potential future applications of IoT but also notes there are challenges to widespread adoption.
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.
Tonex offers a 2-day Internet of Things (IoT) training course that provides an overview of IoT concepts, technologies, applications, architecture, security challenges and the growth of connected devices. The course covers topics such as IoT standards, enabling technologies, cloud computing, big data and platforms. Tonex provides customized training solutions for organizations and boasts a 98% student satisfaction rating from its industry-leading instructors.
The document discusses the Internet of Things (IoT). It defines IoT as physical objects embedded with electronics, software and sensors that can connect and exchange data over the internet. It provides a brief history of IoT, examples of where IoT is used like smart homes and healthcare. It also discusses the size of the IoT market and some technological challenges and drawbacks of IoT like cyber attacks and difficulty updating devices.
The document presents an overview of the Internet of Things (IoT). It defines IoT as connecting physical objects through sensors and networks to leverage data. The document outlines the history and growth of IoT, how it works, current applications focused by the Indian government like smart cities and transportation, and the bright future of IoT enabling remote control and access to home devices.
The document discusses the internet of things (IOT), which connects physical devices, vehicles, appliances and other items embedded with electronics, software, sensors and network connectivity. IOT allows these objects to exchange data over the internet and be remotely monitored and controlled. Examples of IOT applications discussed include smart healthcare, urban management, disaster management and home automation. Benefits include efficient resource use and reduced human effort, while disadvantages include privacy and security risks. The future of IOT is predicted to include worldwide sensor networks and integration into many aspects of daily life and industry.
(1) The Internet of Things (IoT) refers to a wireless network that connects household appliances and everyday objects.
(2) IoT embeds short-range mobile transceivers into gadgets and items, enabling new communication between people, things, and things themselves.
(3) IoT describes technologies that allow the Internet to connect physical objects, enabling applications in shopping, health care, transportation, and more.
On Oct. 22, the University of Texas at Austin's Center for Identity presented “The Internet of Things,” a webcast focused on providing actionable tips for navigating an increasingly connected world. John Danaher, President of TransUnion Interactive, discussed the latest advances in connected technology, the challenges they pose to our personally identifiable information (PII), and ways we can safeguard our PII while remaining connected.
Lessons for the Industrial Internet (pdf with notes)Tim O'Reilly
The document provides a summary of a talk given on the Industrial Internet. It discusses several key lessons that can be learned from the original design of the Internet that should be considered for the Industrial Internet:
1. Keep systems simple by standardizing as little as possible and allowing for evolution over time.
2. Build on simple foundations and allow complex systems to emerge gradually through participation and innovation.
3. Design for robustness by assuming failures will occur and systems should degrade gracefully rather than failing catastrophically.
The document argues that adopting these principles can help create an "architecture of participation" and make the Industrial Internet more generative and able to evolve in unexpected ways.
Winning with the Industrial Internet of Things: How to accelerate the journey...accenture
The Industrial Internet of Things (IIoT) will bring new economic growth, reinventing sectors that account for almost two-thirds of world output. The raw technical conditions for the widespread adoption of the IIoT are highly favorable. Today, the IIoT is helping to improve productivity, reduce operating costs and enhance worker safety. As the world struggles to emerge from a phase of weak productivity growth, fragile employment and pockets of inadequate demand, the IIoT offers a chance to redefine many sectors and accelerate economic and employment growth.
Big Data Analytics for the Industrial Internet of ThingsAnthony Chen
This document summarizes a presentation about big data analytics for the industrial internet of things. The presentation introduces the concepts of the industrial internet and how machine-generated data from sensors can be analyzed at large scale. Examples are given of how sensor data from aircraft engines, wind turbines, medical devices, and other systems can provide insights to improve efficiency, predict maintenance needs, and enhance operations. The presentation argues that big data analytics applied to industrial internet sensor data can help eliminate up to $150 billion in waste across industries through optimizations.
Internet of Things and Big Data: Vision and Concrete Use CasesMongoDB
This document discusses Internet of Things (IoT) and big data. It provides an overview of key concepts in IoT such as the growing number of connected devices, drivers in the IoT ecosystem including enterprises and users, and examples of IoT applications from Bosch Group. It also discusses how big data and evolving data models are driving new requirements for databases including scalability, flexibility, support for analytics, and providing a unified view of data. The document promotes an upcoming webinar series on IoT and big data.
Industrial internet of things (IIOT) - special report-2017Ian Beckett
The internet of things (IoT) is creating new jobs in manufacturing by allowing factories to monitor equipment performance and predict maintenance needs for greater efficiency. While some manual jobs may be eliminated, the IoT is driving demand for new skills in services, technology, data science, software development, and marketing to maintain and upgrade connected machines and develop new IoT-enabled services. Rolls-Royce uses IoT systems that notify the company when aircraft engine maintenance and upgrades are required.
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"
WIRELESS SENSORS INTEGRATION INTO INTERNET OF THINGS AND THE SECURITY PRIMITIVEScsandit
The common vision of smart systems today, is by and large associated with one single concept,
the internet of things (IoT), where the whole physical infrastructure is linked with intelligent
monitoring and communication technologies through the use of wireless sensors. In such an
intelligent vibrant system, sensors are connected to send useful information and control
instructions via distributed sensor networks. Wireless sensors have an easy deployment and
better flexibility of devices contrary to wired setup. With the rapid technological development of
sensors, wireless sensor networks (WSNs) will become the key technology for IoT and an
invaluable resource for realizing the vision of Internet of things (IoT) paradigm. It is also
important to consider whether the sensors of a WSN should be completely integrated into IoT or
not. New security challenges arise when heterogeneous sensors are integrated into the IoT. Security needs to be considered at a global perspective, not just at a local scale. This paper gives an overview of sensor integration into IoT, some major security challenges and also a
number of security primitives that can be taken to protect their data over the internet.
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.
This document discusses fog computing as an extension of cloud computing that moves some computing and storage to the edge of the network. It begins with an abstract that outlines fog computing and its advantages over cloud, such as lower latency. The introduction discusses Cisco's vision for fog computing and bringing applications to billions of connected devices at the network edge. It then discusses how fog computing addresses the issues of slow response times and scalability that cloud computing faces for machine-to-machine communication. The document provides examples of how fog computing could be applied in smart traffic lights, wireless sensor networks, and the internet of things.
Fundamental Concept of Internet of ThingsIRJET Journal
This document provides an overview of the fundamental concepts of the Internet of Things (IoT). It discusses how IoT allows physical objects to be connected to the internet and be remotely detected and controlled. The document outlines the history and development of IoT, including early technologies like ARPANET and advances like IPv6 that enabled greater connectivity. It also describes common IoT communication models including device-to-device, device-to-cloud, device-to-gateway, and back-end data sharing. The goal of the document is to provide insight into IoT for researchers and help enable application developers.
Monitoring Section of IoTs Smart Garbage Systemijtsrd
Nowadays certain actions are taken to improve the level of cleanliness in the country. The proposed system introduces the design and development of smart green environment of garbage monitoring system by measuring the garbage level in real time and to alert the municipality where the bin is full based on the types of garbage. Thus, Smart Garbage bin was built which is interfaced with Ultrasonic sensor, GPS module and Wi Fi module Node MCUs .In this system, we will put a sensor on top of the garbage bin which will detect the total level of garbage inside it according to the total size of the bin. Once the trash increases the threshold level, the notification will pop up in Blynk server. The real time status of how waste collection is being done could be monitored the bins where GPS is shown. Then, the employees can take further actions to empty bins. It is expected that this system can create greener environment by monitoring the collection of garbage smartly through Internet of Things. Thandar Hein | Chaw Myat Nwe "Monitoring Section of IoTs Smart Garbage System" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-5 , August 2019, URL: https://www.ijtsrd.com/papers/ijtsrd25284.pdfPaper URL: https://www.ijtsrd.com/engineering/electronics-and-communication-engineering/25284/monitoring-section-of-iots-smart-garbage-system/thandar-hein
WIRELESS SENSORS INTEGRATION INTO INTERNET OF THINGS AND THE SECURITY PRIMITIVESIJCNCJournal
The common vision of smart systems today, is by and large associated with one single concept, the internet of things (IoT), where the whole physical infrastructure is linked with intelligent monitoring and communication technologies through the use of wireless sensors. In such an intelligent vibrant system, sensors are connected to send useful information and control instructions via distributed sensor networks. Wireless sensors have an easy deployment and better flexibility of devices contrary to wired setup. With the rapid technological development of sensors, wireless sensor networks (WSNs) will become the key technology for IoT and an invaluable resource for realizing the vision of Internet of things (IoT) paradigm.
It is also important to consider whether the sensors of a WSN should be completely integrated into IoT or not. New security challenges arise when heterogeneous sensors are integrated into the IoT. Security needs to be considered at a global perspective, not just at a local scale. This paper gives an overview of sensor integration into IoT, some major security challenges and also a number of security primitives that can be taken to protect their data over the internet.
This document discusses the Internet of Things (IoT). It provides background information on Achint Kumar Rathor, including his name, email, university, and area of study. It then defines IoT as the network of physical objects embedded with technology to communicate and interact with their environment. It lists enabling technologies for IoT like RFID sensors, smart tech, nano tech. It discusses IoT applications and trends, including how personal lives and businesses will change. It outlines Rathor's interest areas in IoT like cloud computing, data security, and big data. It expresses his desired tasks and innovative ideas in these areas.
In this presentation, Achint introduces the concept of IoT and associated trends. His interest area is in data security in cloud for data generated by IoT class devices. He is also interested in IoT data analytics.
This document provides an overview of the Internet of Things (IoT), including its history, applications, trends, architecture, and future. It discusses how the IoT has evolved from early concepts in the 1980s and 1990s to a vision of billions of devices connected by 2020. Key topics covered include smart home and city applications, addressing and networking challenges, the need for standards and frameworks, and the complexities of developing intelligent and autonomous IoT systems at large scales.
The document is a training report submitted for an NPTEL course on Internet of Things (IoT). It discusses an IoT-based keychain finder project completed by three students - Pragya Jha, Rishik Sharma, and Shivam Pruthi. The project involves developing a circuit using an ESP8266 module, buzzer, and battery to allow finding lost keys by triggering the buzzer remotely via a web interface. The report details the components used, circuit diagram, code explaining how it works, and assembly of the printed circuit board.
The 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 discusses how IoT works and the key technologies involved, including RFID, sensors, and network connectivity. It also outlines some of the top companies involved in IoT, how IoT can benefit different industries, current challenges and criticisms of IoT, and its future potential to connect many everyday objects and systems.
The 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 using technologies like RFID sensors, smart technologies, and nanotechnologies to identify things, collect data, and enhance network power. It also discusses current and future applications of IoT in various fields, technological challenges, and criticisms of IoT regarding privacy, security, and control issues.
Openbar 11 - Leuven - IoT from hype to reality - AptusOpenbar
People see IoT as the connected future of tomorrow. The question is: how to get started? In this session, Alexander will guide you through the process of transforming an idea into an IoT solution. He will talk about the different IoT verticals, hardware, connectivity and the software solutions to get your smart solution up and running in no time. Expect a lively session with some real-life usecases.
This document discusses emerging technologies related to the Internet of Things (IoT). It defines IoT as physical objects communicating via the internet, with estimates of 30-50 billion connected objects by 2020. Key areas of focus for IoT include facilities management, industrial applications, energy, healthcare, transportation, and more. The document also discusses technology trends driving IoT like automation, robotics, AI, 3D printing, and analytics. It notes issues around ethics, security, privacy and jobs related to IoT.
The document discusses the Internet of Things (IoT). It defines IoT as a wireless network that connects everyday objects. Key points:
- IoT allows any device with an on/off switch to be connected to the internet and to be controlled remotely, including things like home appliances and traffic lights.
- Important enabling technologies include RFID, WiFi, sensors, and ZigBee communication protocol.
- Current applications include traffic monitoring, smart homes, smart parking, environmental monitoring, supply chain management and more.
- The future of IoT will focus on standardization, security/privacy, identification and improved user interfaces as the number of connected devices is expected to exceed 30 billion by 2020.
The document discusses the evolution of the internet from static Web 1.0 pages to today's dynamic Web 2.0 and upcoming Web 3.0. It defines the Internet of Things (IoT) as connecting physical objects through sensors and internet connectivity. Examples discussed include connecting devices in homes, cities, healthcare, mining and law enforcement. Challenges of IoT include bandwidth, power consumption, security and data management. Standards organizations are working to address these issues and advance IoT technologies. The future may see an "Internet of Everything" connecting people, processes, data and physical things.
This document provides an overview of the Internet of Things (IoT). It discusses the history and concept of IoT, how IoT systems work, applications of IoT, the current state and future prospects. It also outlines key research areas like artificial intelligence and machine learning in IoT. The document details the typical architecture layers in an IoT system and new wireless technologies used in IoT like ZigBee, SigFox, and LTE-M. Finally, it discusses some criticisms, problems and controversies with IoT including issues around security, platform fragmentation, privacy and data storage.
The document provides an overview of the Internet of Things (IoT). It defines IoT as the network of physical devices embedded with electronics, software, sensors and connectivity that allows these devices to collect and exchange data. It describes how IoT devices can be remotely monitored and controlled via existing network infrastructure. The document also outlines several key components of IoT including hardware, software, communication technologies, applications in different industries, and major players. It provides examples of large-scale IoT deployments and a glossary of common IoT terms.
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.
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.
Intel Unveils Core Ultra 200V Lunar chip .pdfTech Guru
Intel has made a significant breakthrough in the world of processors with the introduction of its Core Ultra 200V mobile processor series, codenamed Lunar Lake. This innovative processor marks a fundamental shift in the way Intel creates processors, with a high degree of aggregation, including memory-on-package (MoP). The Core Ultra 300 MX series is designed to power thin-and-light devices that are capable of handling the latest AI applications, including Microsoft's Copilot+ experiences.
The History of Embeddings & Multimodal EmbeddingsZilliz
Frank Liu will walk through the history of embeddings and how we got to the cool embedding models used today. He'll end with a demo on how multimodal RAG is used.
The Zaitechno Handheld Raman Spectrometer is a powerful and portable tool for rapid, non-destructive chemical analysis. It utilizes Raman spectroscopy, a technique that analyzes the vibrational fingerprint of molecules to identify their chemical composition. This handheld instrument allows for on-site analysis of materials, making it ideal for a variety of applications, including:
Material identification: Identify unknown materials, minerals, and contaminants.
Quality control: Ensure the quality and consistency of raw materials and finished products.
Pharmaceutical analysis: Verify the identity and purity of pharmaceutical compounds.
Food safety testing: Detect contaminants and adulterants in food products.
Field analysis: Analyze materials in the field, such as during environmental monitoring or forensic investigations.
The Zaitechno Handheld Raman Spectrometer is easy to use and features a user-friendly interface. It is compact and lightweight, making it ideal for field applications. With its rapid analysis capabilities, the Zaitechno Handheld Raman Spectrometer can help you improve efficiency and productivity in your research or quality control workflows.
This PDF delves into the aspects of information security from a forensic perspective, focusing on privacy leaks. It provides insights into the methods and tools used in forensic investigations to uncover and mitigate privacy breaches in mobile and cloud environments.
Connector Corner: Leveraging Snowflake Integration for Smarter Decision MakingDianaGray10
The power of Snowflake analytics enables CRM systems to improve operational efficiency, while gaining deeper insights into closed/won opportunities.
In this webinar, learn how infusing Snowflake into your CRM can quickly provide analysis for sales wins by region, product, customer segmentation, customer lifecycle—and more!
Using prebuilt connectors, we’ll show how workflows using Snowflake, Salesforce, and Zendesk tickets can significantly impact future sales.
Top 12 AI Technology Trends For 2024.pdfMarrie Morris
Technology has become an irreplaceable component of our daily lives. The role of AI in technology revolutionizes our lives for the betterment of the future. In this article, we will learn about the top 12 AI technology trends for 2024.
Redefining Cybersecurity with AI CapabilitiesPriyanka Aash
In this comprehensive overview of Cisco's latest innovations in cybersecurity, the focus is squarely on resilience and adaptation in the face of evolving threats. The discussion covers the imperative of tackling Mal information, the increasing sophistication of insider attacks, and the expanding attack surfaces in a hybrid work environment. Emphasizing a shift towards integrated platforms over fragmented tools, Cisco introduces its Security Cloud, designed to provide end-to-end visibility and robust protection across user interactions, cloud environments, and breaches. AI emerges as a pivotal tool, from enhancing user experiences to predicting and defending against cyber threats. The blog underscores Cisco's commitment to simplifying security stacks while ensuring efficacy and economic feasibility, making a compelling case for their platform approach in safeguarding digital landscapes.
It's your unstructured data: How to get your GenAI app to production (and spe...Zilliz
So you've successfully built a GenAI app POC for your company -- now comes the hard part: bringing it to production. Aparavi addresses the challenges of AI projects while addressing data privacy and PII. Our Service for RAG helps AI developers and data scientists to scale their app to 1000s to millions of users using corporate unstructured data. Aparavi’s AI Data Loader cleans, prepares and then loads only the relevant unstructured data for each AI project/app, enabling you to operationalize the creation of GenAI apps easily and accurately while giving you the time to focus on what you really want to do - building a great AI application with useful and relevant context. All within your environment and never having to share private corporate data with anyone - not even Aparavi.
"Hands-on development experience using wasm Blazor", Furdak Vladyslav.pptxFwdays
I will share my personal experience of full-time development on wasm Blazor
What difficulties our team faced: life hacks with Blazor app routing, whether it is necessary to write JavaScript, which technology stack and architectural patterns we chose
What conclusions we made and what mistakes we committed
Latest Tech Trends Series 2024 By EY IndiaEYIndia1
Stay ahead of the curve with our comprehensive Tech Trends Series! Explore the latest technology trends shaping the world today, from the 2024 Tech Trends report and top emerging technologies to their impact on business technology trends. This series delves into the most significant technological advancements, giving you insights into both established and emerging tech trends that will revolutionize various industries.
History and Introduction for Generative AI ( GenAI )
Internet of Things
1. NAME : PARUL SHARMA
EMAIL : parulsharma613.ps@gmail.com
TWITTER ID : @parulsharma613
UNIVERSITY :INDIRA GANDHI DELHI TECHNICAL UNIVERSITY FOR WOMEN
YEAR/SEMESTER :3rd YEAR( 6th SEMESTER)
BRANCH :ELECTRONICS AND COMMUNICATION ENGINEERING
INTERNET OF THINGS
Machine talking to machine
2. What is Internet of Things?
A network of physical objects that can interact with each other to share
information and take action.
ARCHITECTURE OF IoT
Application layer
Management
service layer
Gateway and
network layer
Sensor layer
CONCEPT
The internet of things is an emerging global internet based
technical architecture facilitating the exchange of goods in the
global supply chain network.
Rapid advancement in technology in just 21 years.
IPv6 communication
Protocol for M2M communication
Smart sensors
Cloud storage
Sophisticated algorithm via a machine learning
3. Why Internet Of Things?
Dynamic control of industry and daily life
Improve the resource utilization ratio
Better relationship between human and nature
Forming an intellectual entity by integrating
human society and physical system
Flexible configuration, P&P
Universal transport and internetworking
Accessibility and usability
Acts as technology integrator
Challenges
to IoT
Device level energy
issues
Lack of security
Management of huge
amount of data
Privacy issues Trust issues
4. The ‘IoT’ is Going To Be Huge!!
Automobile example: safety, vehicle diagnostics
Smart homes example :smart thermostats, smart lightings
Smart city example: smart meter, smart traffic lights
Smart industries example: factory automation , supply chain
Wearable example: fitness brands, smart watches
Health example: BP monitors
Logistics example :GPS and RFID trackers
Education example: smart classes
Wireless sensors
5. Few Latest Examples
GLOWCAPS - GlowCaps use light, sound, and even text notifications to remind you when to take your medication.
BIKN - Keys are easy to lose. That’s just the simple truth. But thanks to wireless key locator apps like BiKN you can
easily track their location. By attaching a sensory tag to your keys you can locate them up to 50 feet away inside and
up to 200 feet away outside. Just like that your keys are robbed of their uncanny ability to get up and walk away.
AIR QUALITY EGGS - Air pollution samples tend to be skewed. A lot. But with the Air Quality Egg comes a drastic
improvement in the accuracy of pollution monitoring. By simply placing your AQE outside of your home you now
have access to site-specific CO and NO2 readings. This community-led network unites you with others who are
concerned about the quality of the air they breathe.
SIGHTMACHINE - sightmachine helps maintain the quality and consistency of manufacturing processes.
Sightmachine uses networked sensors, cameras, lasers, and continual data processing to identify the current
condition of a machine part.
PARKSIGHT 2.0 - Parking can make or break your day. Fortunately Parksight 2.0 has changed how you store your
means of transportation from a free-for-all guessing game to a cut-and-dry GPS app. Parking lot sensors identify
the presence of a vehicle, relaying the information to the cloud. Now you can pinpoint the open spots, thus greatly
reducing the all-too-familiar chaos of the parking lot scramble.
6. Interest Areas
Internet of Things (IoT) is a concept and a paradigm that considers pervasive presence in the environment
of a variety of things/objects that through wireless and wired connections and unique addressing schemes
are able to interact with each other and cooperate with other things/objects to create new
applications/services and reach common goals.
Today's technology isn't ready for the massive scale and highly dynamic nature of the future IoT, the huge
amounts of data streamed from the physical world, the new communication and the pattern it creates. We
need novel programming, content delivery and network management approaches.
Data management is a crucial aspect in the IoT. Thus if given a chance to practice this pristine internship I
would put best of my efforts on this part of IoT. It would be a great experience to learn concepts and
software like hadoop, PIG, skytree of overcome this limitation of IoT.