IOT (Internet of Things) uses targeted small devices to deliver their accuracy and versatility. It provide real world information that lead to more efficient resource management.
IoT Training in Chennai from basics to advanced techniques which is taught by experienced working professionals. India's Top Rated IoT Training Institute in Chennai offers realtime practical Internet of Things Training. Our trainings are 100% job assured.
The document proposes a scalable distributed architecture called DIAT for IoT. DIAT has three layers - the virtual object layer, composite virtual object layer, and service layer. The virtual object layer virtualizes physical objects and acts as a translator between the digital and physical worlds. The composite virtual object layer coordinates between individual entities by scheduling them optimally. The service layer handles service requests and automatically creates new services by splitting them into subtasks. DIAT also includes a cognitive management component and security management module to address challenges like heterogeneity, scalability, interoperability, and security in IoT.
Introduction to IoT Technologies - The need to know basicsJaco Bester
This document provides an introduction to Internet of Things (IoT) technologies. It discusses what IoT is, its application areas, and key aspects like platforms, security, analytics, device management, event stream processing, hardware, operating systems, standards, and low-power IoT networks. Specific technologies covered include Amazon Web Services IoT, Azure IoT Suite, Zigbee, Sigfox, and LoRa. The document aims to explain the basics needed to understand IoT.
The Internet of things is the extension of Internet connectivity into physical devices and everyday objects. Embedded with electronics, Internet connectivity, and other forms of hardware, these devices can communicate and interact with others over the Internet, and they can be remotely monitored and controlled.
Things That No One Will Tell You About IoT SolutionsHemang Rindani
IoT connects devices over the internet to collect and share data in the cloud. It provides benefits like efficient resource use, reduced costs, and improved customer experiences. However, IoT faces barriers like high implementation costs, security issues, and lack of information about solutions. Cygnet offers IoT consulting, security, solution development, implementation support, and data analytics to help customers overcome these barriers.
Implementing this concept is not an easy task by any measure for many reasons including the complex nature of the different components of the ecosystem of IoT. To understand the gravity of this task, we will explain all the five components of IoT Implementation
IoT is a trending & booming topic in the tech world. Here is the PPT which talks about what is IoT, it's applications., benifits challenges and everything about IoT.
IoT Training in Chennai from basics to advanced techniques which is taught by experienced working professionals. India's Top Rated IoT Training Institute in Chennai offers realtime practical Internet of Things Training. Our trainings are 100% job assured.
The document proposes a scalable distributed architecture called DIAT for IoT. DIAT has three layers - the virtual object layer, composite virtual object layer, and service layer. The virtual object layer virtualizes physical objects and acts as a translator between the digital and physical worlds. The composite virtual object layer coordinates between individual entities by scheduling them optimally. The service layer handles service requests and automatically creates new services by splitting them into subtasks. DIAT also includes a cognitive management component and security management module to address challenges like heterogeneity, scalability, interoperability, and security in IoT.
Introduction to IoT Technologies - The need to know basicsJaco Bester
This document provides an introduction to Internet of Things (IoT) technologies. It discusses what IoT is, its application areas, and key aspects like platforms, security, analytics, device management, event stream processing, hardware, operating systems, standards, and low-power IoT networks. Specific technologies covered include Amazon Web Services IoT, Azure IoT Suite, Zigbee, Sigfox, and LoRa. The document aims to explain the basics needed to understand IoT.
The Internet of things is the extension of Internet connectivity into physical devices and everyday objects. Embedded with electronics, Internet connectivity, and other forms of hardware, these devices can communicate and interact with others over the Internet, and they can be remotely monitored and controlled.
Things That No One Will Tell You About IoT SolutionsHemang Rindani
IoT connects devices over the internet to collect and share data in the cloud. It provides benefits like efficient resource use, reduced costs, and improved customer experiences. However, IoT faces barriers like high implementation costs, security issues, and lack of information about solutions. Cygnet offers IoT consulting, security, solution development, implementation support, and data analytics to help customers overcome these barriers.
Implementing this concept is not an easy task by any measure for many reasons including the complex nature of the different components of the ecosystem of IoT. To understand the gravity of this task, we will explain all the five components of IoT Implementation
IoT is a trending & booming topic in the tech world. Here is the PPT which talks about what is IoT, it's applications., benifits challenges and everything about IoT.
Securing the IoT is complex given that the the devices are constrained and applications are deployed to work with the physical world. In this, presentation, I have proposed a set of design guidelines for securing the IoT Applications
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
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.
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.
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.
IoT Landscape and its Key Trends in DeploymentVincent Lau
Today, there are more than 31 billion Internet of Things (IoT) devices connected to the Internet. These devices range from simple sensors and actuators to smart equipment and appliances that have a huge impact on major industries such as manufacturing, transportation, healthcare and utilities. The vast amount of data collected from IoT device telemetry has also enabled advanced data analytics, and machine learning models that can give us better insights and make IoT smarter, giving rise to AIoT (AI + IoT) applications. With the pandemic situation likely to turn endemic, how will this impact the IoT landscape in Singapore? What are some of the key drivers and growth areas for IoT?
This document discusses the convergence of IoT and cloud computing. It describes how IoT platforms have major requirements for connectivity, dynamic management of devices and data, and deriving value from connected devices. The cloud offers resources that can meet these IoT needs, including scalability, elasticity, and ubiquitous access. There are two main convergence approaches - cloud-centric IoT, which brings IoT functionality to the cloud, and IoT-centric cloud, which brings cloud functionality to distributed IoT networks. Examples are given of existing platforms that take each approach. Key challenges of the IoT-cloud convergence include distributed processing and storage of massive IoT data, interoperability, and ensuring real-time communication across devices, applications
This presentation covers:
What is IoT (Internet Of Things) ?
Brief History of IoT
IoT Architecture & Perspective
IoT Applications
IoT Challenges and Solutions
IoT future
The document discusses the Internet of Things (IoT), which allows physical objects to be connected to the internet and transfer data without human interaction. It describes the key layers of an IoT system including the edge layer with sensors, the access gateway layer for routing data, the middleware layer that acts as an interface, and the application layer that delivers apps to users. It also lists some applications of IoT in smart buildings, healthcare, smart grids, and smart cities and discusses challenges of network limitations, big data management, security, and heterogeneity. The document concludes that further research is needed in areas like identity management, bandwidth reduction, and more advanced security.
This document discusses the key building blocks needed to enable the Internet of Things (IoT). It outlines four main categories of IoT applications: 1) remote tracking/monitoring and control, 2) process control and optimization, 3) resource allocation and optimization, and 4) context-aware automation and decision making. The main building blocks are then described in more detail: 1) sensing nodes to collect data, 2) local embedded processing nodes to analyze the data, 3) connectivity nodes to communicate wired or wirelessly, 4) software to automate tasks, and 5) remote processing nodes in the cloud. Microcontroller units are discussed as ideal local processing nodes due to requirements for energy efficiency, software ecosystems, cost effectiveness, quality,
IoT Standardization and Implementation ChallengesAhmed Banafa
The rapid evolution of the IoT market has caused an explosion in the number and variety of IoT solutions.
Additionally, large amounts of funding are being deployed at IoT startups.
Consequently, the focus of the industry has been on manufacturing and producing the right types of hardware to enable those solutions.
The Internet of things describes physical objects that are embedded with sensors, processing ability, software, and other technologies that connect and exchange data with other devices and systems over the Internet or other communications networks.
The document discusses the topic of the Internet of Things (IOT). It defines IOT as a collection of devices, sensors and things that are connected through networks and can send and receive data. The document outlines the typical life cycle of IOT which includes collection, communication, analysis and action based on the data. Statistics show growth in IOT adoption, especially in India's smart cities initiative. Examples of IOT applications include smart shoes, smart homes and industrial automation. The conclusion emphasizes that IOT will provide rich new information and drive development of new mobile applications, though security and privacy must be top priorities.
The slide deck provides the details of IoT Architecture, Market/Projects worldwide, IoT Frameworks. Also covers overview of Raspberry Pi, and how can you start your IoT project with it.
The document provides an introduction and overview of the Internet of Things (IoT). It defines IoT as the interconnection of computing devices embedded in everyday objects that can send and receive data via the Internet. The document notes that the number of IoT devices is growing rapidly and will be increasingly important. It describes some key IoT applications like smart parking and provides examples of how IoT devices can be integrated into a system with sensors, gateways, servers, and applications.
The document discusses Internet of Things (IoT) and Industrial Internet of Things (IIoT). It provides examples of IoT in areas like smart agriculture, energy consumption, security, and healthcare. It then describes key enabling technologies for IoT like low-power devices, Bluetooth, and the need for open connectivity standards. The document also discusses the growth of the IoT market and applications of robotics. It then focuses on defining IIoT and comparing it to IoT and M2M. The document outlines requirements and benefits of IIoT like cloud computing, analytics, and improved efficiency. Real-life examples of IIoT in industries like aviation, oil and gas are also provided.
The Internet of Things (IoT) is a concept that describes a totally interconnected world. It’s a world where devices of every shape and size are manufactured with “smart” capabilities that allow them to communicate and interact with other devices, exchange data, make autonomous decisions and perform useful tasks based on preset conditions.
IoT is expected to gross over $19 trillion over the next few years. However, the problem is that these ‘things’ have myths surrounding them, some of which are impacting how organizations develop the apps to support them.
Any new technology involves a certain amount of uncertainty and business risk. In the case of the Internet of Things, however, many of the risks have been exaggerated or misrepresented. While the IoT vision will take years to mature fully, the building blocks to begin this process are already in place.
Key hardware and software are either available today or under development; stakeholders need to address security and privacy concerns, and collaborate to implement the open standards that will make the IoT safe, secure, reliable and interoperable, and allow the delivery of secured services as seamlessly as possible.
The document discusses the outlook for IoT in 2018. Key points include:
- Edge/fog computing will become more prevalent to support low latency applications.
- Blockchain technology will be applied to device registries and supply chain data validation.
- Artificial intelligence will be used to automate IoT maintenance and provide immersive user experiences.
- Privacy regulations like GDPR will require new privacy-preserving solutions for IoT.
- Safety will become a critical issue as IoT is applied to industrial environments.
Internet of Things (IoT) is a cutting-edge automation and analytics system that uses networking, sensing, artificial intelligence, and big data to deliver complete product or service systems. Key features of IoT include- artificial intelligence, sensors, connectivity, active engagement, small devices.
Securing the IoT is complex given that the the devices are constrained and applications are deployed to work with the physical world. In this, presentation, I have proposed a set of design guidelines for securing the IoT Applications
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
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.
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.
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.
IoT Landscape and its Key Trends in DeploymentVincent Lau
Today, there are more than 31 billion Internet of Things (IoT) devices connected to the Internet. These devices range from simple sensors and actuators to smart equipment and appliances that have a huge impact on major industries such as manufacturing, transportation, healthcare and utilities. The vast amount of data collected from IoT device telemetry has also enabled advanced data analytics, and machine learning models that can give us better insights and make IoT smarter, giving rise to AIoT (AI + IoT) applications. With the pandemic situation likely to turn endemic, how will this impact the IoT landscape in Singapore? What are some of the key drivers and growth areas for IoT?
This document discusses the convergence of IoT and cloud computing. It describes how IoT platforms have major requirements for connectivity, dynamic management of devices and data, and deriving value from connected devices. The cloud offers resources that can meet these IoT needs, including scalability, elasticity, and ubiquitous access. There are two main convergence approaches - cloud-centric IoT, which brings IoT functionality to the cloud, and IoT-centric cloud, which brings cloud functionality to distributed IoT networks. Examples are given of existing platforms that take each approach. Key challenges of the IoT-cloud convergence include distributed processing and storage of massive IoT data, interoperability, and ensuring real-time communication across devices, applications
This presentation covers:
What is IoT (Internet Of Things) ?
Brief History of IoT
IoT Architecture & Perspective
IoT Applications
IoT Challenges and Solutions
IoT future
The document discusses the Internet of Things (IoT), which allows physical objects to be connected to the internet and transfer data without human interaction. It describes the key layers of an IoT system including the edge layer with sensors, the access gateway layer for routing data, the middleware layer that acts as an interface, and the application layer that delivers apps to users. It also lists some applications of IoT in smart buildings, healthcare, smart grids, and smart cities and discusses challenges of network limitations, big data management, security, and heterogeneity. The document concludes that further research is needed in areas like identity management, bandwidth reduction, and more advanced security.
This document discusses the key building blocks needed to enable the Internet of Things (IoT). It outlines four main categories of IoT applications: 1) remote tracking/monitoring and control, 2) process control and optimization, 3) resource allocation and optimization, and 4) context-aware automation and decision making. The main building blocks are then described in more detail: 1) sensing nodes to collect data, 2) local embedded processing nodes to analyze the data, 3) connectivity nodes to communicate wired or wirelessly, 4) software to automate tasks, and 5) remote processing nodes in the cloud. Microcontroller units are discussed as ideal local processing nodes due to requirements for energy efficiency, software ecosystems, cost effectiveness, quality,
IoT Standardization and Implementation ChallengesAhmed Banafa
The rapid evolution of the IoT market has caused an explosion in the number and variety of IoT solutions.
Additionally, large amounts of funding are being deployed at IoT startups.
Consequently, the focus of the industry has been on manufacturing and producing the right types of hardware to enable those solutions.
The Internet of things describes physical objects that are embedded with sensors, processing ability, software, and other technologies that connect and exchange data with other devices and systems over the Internet or other communications networks.
The document discusses the topic of the Internet of Things (IOT). It defines IOT as a collection of devices, sensors and things that are connected through networks and can send and receive data. The document outlines the typical life cycle of IOT which includes collection, communication, analysis and action based on the data. Statistics show growth in IOT adoption, especially in India's smart cities initiative. Examples of IOT applications include smart shoes, smart homes and industrial automation. The conclusion emphasizes that IOT will provide rich new information and drive development of new mobile applications, though security and privacy must be top priorities.
The slide deck provides the details of IoT Architecture, Market/Projects worldwide, IoT Frameworks. Also covers overview of Raspberry Pi, and how can you start your IoT project with it.
The document provides an introduction and overview of the Internet of Things (IoT). It defines IoT as the interconnection of computing devices embedded in everyday objects that can send and receive data via the Internet. The document notes that the number of IoT devices is growing rapidly and will be increasingly important. It describes some key IoT applications like smart parking and provides examples of how IoT devices can be integrated into a system with sensors, gateways, servers, and applications.
The document discusses Internet of Things (IoT) and Industrial Internet of Things (IIoT). It provides examples of IoT in areas like smart agriculture, energy consumption, security, and healthcare. It then describes key enabling technologies for IoT like low-power devices, Bluetooth, and the need for open connectivity standards. The document also discusses the growth of the IoT market and applications of robotics. It then focuses on defining IIoT and comparing it to IoT and M2M. The document outlines requirements and benefits of IIoT like cloud computing, analytics, and improved efficiency. Real-life examples of IIoT in industries like aviation, oil and gas are also provided.
The Internet of Things (IoT) is a concept that describes a totally interconnected world. It’s a world where devices of every shape and size are manufactured with “smart” capabilities that allow them to communicate and interact with other devices, exchange data, make autonomous decisions and perform useful tasks based on preset conditions.
IoT is expected to gross over $19 trillion over the next few years. However, the problem is that these ‘things’ have myths surrounding them, some of which are impacting how organizations develop the apps to support them.
Any new technology involves a certain amount of uncertainty and business risk. In the case of the Internet of Things, however, many of the risks have been exaggerated or misrepresented. While the IoT vision will take years to mature fully, the building blocks to begin this process are already in place.
Key hardware and software are either available today or under development; stakeholders need to address security and privacy concerns, and collaborate to implement the open standards that will make the IoT safe, secure, reliable and interoperable, and allow the delivery of secured services as seamlessly as possible.
The document discusses the outlook for IoT in 2018. Key points include:
- Edge/fog computing will become more prevalent to support low latency applications.
- Blockchain technology will be applied to device registries and supply chain data validation.
- Artificial intelligence will be used to automate IoT maintenance and provide immersive user experiences.
- Privacy regulations like GDPR will require new privacy-preserving solutions for IoT.
- Safety will become a critical issue as IoT is applied to industrial environments.
Internet of Things (IoT) is a cutting-edge automation and analytics system that uses networking, sensing, artificial intelligence, and big data to deliver complete product or service systems. Key features of IoT include- artificial intelligence, sensors, connectivity, active engagement, small devices.
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.
This document provides an overview of Internet of Things (IoT). It defines IoT as an advanced automation and analytics system that exploits networking, sensing, big data, and artificial intelligence technology. Key features of IoT include artificial intelligence, connectivity, sensors, active engagement, and use of small devices. The document also discusses common IoT applications in various industries, key enabling technologies and protocols, hardware components, and disadvantages of IoT such as security, privacy, and complexity issues.
This document outlines the plan and content for a seminar on the Internet of Things (IoT). It will define IoT, explain how IoT works by connecting various devices, and explore IoT's potential applications in areas like engineering, home/office use, healthcare, government, and more. The seminar will also cover IoT's key features of artificial intelligence, connectivity, sensors, protocols and hardware/software, as well as discuss topics like current adoption status and challenges like security and privacy.
The document discusses the Internet of Things (IoT). It provides definitions of IoT from various organizations and describes IoT as a network of physical devices embedded with sensors, software and network connectivity. These devices can collect and exchange data over the internet without human interaction. The document outlines the key components of IoT including sensing devices, network connectivity, data processing and applications. It also discusses the architecture of IoT devices and describes the various layers involved. Examples of application areas for IoT such as smart homes, healthcare and agriculture are provided. The benefits and challenges of IoT are summarized.
This document provides an overview of the Internet of Things (IoT). It begins by defining IoT and describing its key features such as artificial intelligence, connectivity, sensors, active engagement, and use of small devices. It then explains how IoT works and describes its architecture which includes sensing, network, data processing, and application layers. The document discusses the history of IoT and provides examples of its applications in various domains like smart homes, healthcare, transportation, and agriculture. It also outlines some of the pros and cons of IoT such as improved customer engagement but also security and privacy risks. In the end, the document discusses some IoT tools and platforms.
This document provides an overview of Internet of Things (IoT) concepts including key features, advantages, disadvantages, and use cases. It describes the basic components and architecture of an IoT system including sensors, connectivity, data processing, and user interfaces. It also discusses hardware components like chips and sensors, and software components like data collection and analytics. Finally, it provides examples of how IoT is used in different industries like healthcare, travel, education, real estate, and retail.
The document discusses the Internet of Things (IoT) and its impact. It begins by quoting the World Economic Forum that we are on the brink of a technological revolution through IoT that will fundamentally change how people live and work. IoT involves connecting physical devices to the internet and to each other. This allows for collection and sharing of data from billions of smart devices. The document then discusses how IoT is being used in various industries and provides examples of IoT applications for smart farming, elderly care, smart home devices, and more. It also outlines some of the advantages and disadvantages of IoT, such as improved customer engagement but also security and privacy concerns.
The document discusses the Internet of Things (IoT). It defines IoT as a system of interconnected computing devices, objects, and people that are provided with unique identifiers and can transfer data over a network. It describes how IoT works using technologies like sensors, communication capabilities, and data processing. It also outlines several applications of IoT such as smart homes, smart cities, industrial IoT, and more. Finally, it discusses some challenges of IoT including security, privacy, and reliability issues.
This document provides an overview of an IoT-based smart irrigation system. It begins with introductions to IoT, explaining what IoT is, why it is useful, and how IoT works. It then describes the key components used in an IoT system, including devices, gateways, cloud infrastructure, analytics, and user interfaces. Specific hardware and software used in the proposed smart irrigation system are also outlined, including sensors, microcontrollers, and programming languages. The document concludes with thanks.
The Internet of Things (IoT) refers to a vast network of interconnected physical devices, objects, and systems that can collect and exchange data over the internet. These devices are equipped with sensors, actuators, and communication modules that allow them to interact with each other, as well as with centralized systems or cloud platforms.
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The document discusses the Internet of Things (IoT). It defines IoT as a system of interrelated computing devices that are able to exchange data over networks without requiring human-to-human or human-to-computer interaction. It describes the key components of IoT including sensors, networks, data processing, and applications. It also covers the architecture of IoT systems and discusses how IoT works. Examples of IoT applications discussed include smart homes, smart cities, smart farming, healthcare, transportation, and more. Challenges and opportunities of IoT are also presented.
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The document discusses Internet of Things (IoT) and Artificial Intelligence (AI).
It defines IoT as the network of physical objects or 'things' embedded with electronics, software, sensors, and network connectivity, which enables these objects to collect and exchange data. It also states that IoT is a system of interrelated computing devices, mechanical and digital machines, objects, animals or people that are provided with unique identifiers and the ability to transfer data over a network without requiring human-to-human or human-to-computer interaction.
It defines AI as the branch of computer science by which we can create intelligent machines which can behave like a human, think like humans, and able to make decisions. The
The document provides an overview of the Internet of Things (IoT). It defines IoT and discusses its key components including sensors, connectivity, artificial intelligence, active engagement, and small devices. The document then discusses IoT architecture including sensing, network, data processing, and application layers. It also outlines some common applications of IoT such as smart homes, smart cities, and smart farming. Finally, the document discusses some of the advantages and challenges of implementing IoT systems.
This document provides an overview of the fundamentals of the Internet of Things (IoT). It discusses the basic architecture of IoT systems including sensing, network, data processing, and application layers. It also covers main design principles such as security, data management, and human factors. Additional topics include IoT standards considerations, devices and gateways, networking approaches, business processes, Everything as a Service models, reference architectures, and technical constraints around interoperability, privacy and security.
This document provides an overview of Chapter 4 which discusses Internet of Things (IoT). It begins by outlining the chapter objectives which are to describe IoT, discuss its history and overview, pros and cons, architectures, examples of applications, and management platforms. It then defines IoT according to several sources and outlines its key features. The rest of the document discusses IoT architectures, devices, platforms, applications in areas like agriculture, smart homes, cities, and healthcare. It also covers IoT challenges, trends, and how IoT works through data collection, transmission, processing and application layers.
This document discusses Internet of Things (IoT). It defines IoT and explains that IoT allows internet connectivity and computing capability to extend to various objects and devices. It describes key characteristics of IoT including use of sensors, connectivity models like device-to-device and device-to-cloud, applications across various domains like healthcare, transportation, utilities and more. It also outlines advantages and disadvantages of IoT as well as security and other challenges in deploying IoT solutions at scale.
The document provides an overview of the Internet of Things (IoT). It defines IoT as a network of physical objects with embedded electronics, software, and sensors that can collect and exchange data. It describes the key features of IoT including AI, connectivity, sensors, and small devices. It also explains the architecture of IoT systems including the sensing, network, processing, and application layers. Finally, it discusses some common IoT tools and platforms and gives examples of IoT applications in various domains like smart homes, smart cities, smart farming, healthcare, and more.
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.
Electronic commerce( e- commerce) is a relatively new area of business management and information technology and is continually changing with the technological advancement. E-commerce has four driving factors- social, technological, economic, and political and impact upon a wide range of different areas.
The GMAT is a standardized test used by graduate business programs to assess candidates' abilities in critical thinking, analytical writing, integrated reasoning, quantitative reasoning, and verbal reasoning. It takes 3.5 hours to complete and provides flexibility in section order. Over 2,100 universities in 114 countries use GMAT scores, which remain valid for 5 years, to help admit students and predict their potential for success in graduate business programs.
Commerce programs offer significant flexibility and diversity for students. Students will acquire the skills and knowledge to meet the challenges of a changing business environment, develop the ability to critically analyse emerging business issues, and be exposed to scholarly research in the national and global business arena. Achieving these academic and professional qualities will lead you to a wide range of business related professions and careers, or progress to more advanced studies.
The document discusses the field of radiology including courses, careers, and job opportunities. It notes that the need for radiologists is increasing due to growth in the field. Courses range from certificate to masters level and include subjects like radiography, radiotherapy, and medical imaging. Popular career paths include roles as a radiologist, radiology technician, MRI technician, and ultrasound or CT scan technologist. Graduates can find employment in hospitals, clinics, diagnostic centers, and other healthcare facilities.
Epidemiology is defined as the study of the distribution and determinants of health-related states or events in specified populations, and the application of this study to control health problems. Some key principles of epidemiology are that it studies incidence and patterns of health issues over time, place and personal characteristics (distribution) and seeks to understand causes and risk factors (determinants). Applied epidemiology aims to monitor diseases, evaluate programs and plan public health resources to deal with a wide range of health issues and keep communities healthy.
Social media platforms like Facebook, Instagram, and Twitter provide advantages for business advertising and marketing by allowing companies to reach millions of potential customers quickly and at a low cost. Social media advertising increases brand visibility to large audiences and can improve brand loyalty through content shared organically by users. Creating high-quality pages and content takes only a few hours but can potentially reach millions on social media.
Influencer marketing uses influential leaders to promote a brand's message to a large audience. It identifies people with large social followings who can influence target consumers. An effective influencer marketing campaign identifies key influencers, builds a campaign around them, and measures metrics like reach, sales, and awareness. Influencer marketing is more trusted than traditional ads because it leverages social proof and word-of-mouth recommendations from influencers their audiences respect.
New media marketing utilizes evolving online channels like websites, search engines, social media, email newsletters, online video and forums to promote products, services and brands. As the web has become primary for research and communication, marketers have shifted from traditional to online marketing. Organizations use new media marketing and track metrics like website traffic, bounce rates and dwell time to monitor campaign success and inform future planning. New media tools allow businesses to gain success through online platforms with wise planning rather than traditional salesperson conversations.
Media Science involves the study of mass media including print, audio, and audiovisual media. It covers topics like advertising, public relations, and event management. Students can pursue various career paths after graduation like journalists, media planners, public relations officers, and producers. Both students and industry stakeholders benefit from media science - students gain practical skills and updated knowledge, while stakeholders can leverage students' expertise in evolving media platforms.
Cloud computing is a technology that allows programs and services to be delivered over the Internet. It allows everything from email to complex data analysis programs to be hosted remotely on servers that make up the "cloud." Organizations use cloud computing to manage computer operations and resources more efficiently. All that is needed to access cloud services is a computer, web browser, and Internet connection. Cloud computing provides quick solutions and has become essential for many organizations. It reduces costs associated with software, hardware, and data center maintenance.
MBA in HR covers topics related to management of the people and few finance and commerce
related subjects like Ethics and Responsibility, Competitive Strategy, Managerial Economics and
Statistics, People Management, Decision Models and Uncertainty, Financial Accounting, Government
and Legal Frameworks for Business, Financial Management, Macro-Economics, Organizational
Change, Company Hierarchy, Power and Influence, Management Communication, Operations
Management, Supply Chain, Managerial Statics and some electives in order to give a feel or other
subject which are directly or indirectly related to Human Resources.
The field of Biotechnology focuses on the intersection of biology and technology, leading to a vast array of new products that are designed to enrich lives, make day-to-day living easier, and make us healthier. From vaccine production to genetic modification, biotechnology is everywhere – and as a result, biotechnology careers are quite promising for new graduates. This guide focuses on the various biotechnology degrees, jobs and expectations for those who are interested in the field.
Traditionally, the field of optometry began with the primary focus of correcting refractive error through the use of spectacles. Modern day optometry, however, has evolved through time so that the educational curriculum additionally includes significant training in the diagnosis and management of ocular disease, in most of the countries of the world, where the profession is established and regulated.
There are several colleges/institutions offering Law courses for higher studies in West Bengal. All you need to do is a good research on the courses, fee structure, placement facility, etc. to be well acquainted and get aware with the colleges. Here is a good look of a few of them.
ECE has a great demand in the market and it involved lots of opportunities. Students can also pursue in the field of communications and networking work area. For ECE Students there is many scope to get into the IT industry.
The Emerging careers offers a chance to make the field clear for the students. Well, there is nothing more than challenging the objective of your goals and converting them from dream to the reality.
It is a platform to show the talent and efforts put by students to make the events successful. Annual sports is not only about competitions, it also about having fun, being physically active and can get the basic knowledge of sports and can create a teamwork so that students can get opportunity to use their talent build self confidence.
Brainware university:The Studentpreneurs the steps towards Idea HuntBrainware University
The main aim of the programme is to encourage students to come up with digital solutions in real life problems and to convert their ideas into successful business.
2) It's a challenging thing to do but it comes with a lot of advantage.Students can get unique skills and think outside the box. It will help to learn from different social and economic backgrounds.
It will help you to improve your memory recall and to make your brain work continuously will make it a little stronger. People can learn about the past by talking to people who remember things that happened in the past so that history will not be lost.
Students interested in law have opportunities to study legal history and gain practical legal skills. A workshop provided guidance on cracking competitive exams for legal careers and focused on understanding over memorization. Guest speakers discussed the importance of statutes and case laws, and shared expertise in cross-examination. Studying law offers entry into various law firms and positions beyond legal work in fields like business and administration.
Securing BGP: Operational Strategies and Best Practices for Network Defenders...APNIC
Md. Zobair Khan,
Network Analyst and Technical Trainer at APNIC, presented 'Securing BGP: Operational Strategies and Best Practices for Network Defenders' at the Phoenix Summit held in Dhaka, Bangladesh from 23 to 24 May 2024.
HijackLoader Evolution: Interactive Process HollowingDonato Onofri
CrowdStrike researchers have identified a HijackLoader (aka IDAT Loader) sample that employs sophisticated evasion techniques to enhance the complexity of the threat. HijackLoader, an increasingly popular tool among adversaries for deploying additional payloads and tooling, continues to evolve as its developers experiment and enhance its capabilities.
In their analysis of a recent HijackLoader sample, CrowdStrike researchers discovered new techniques designed to increase the defense evasion capabilities of the loader. The malware developer used a standard process hollowing technique coupled with an additional trigger that was activated by the parent process writing to a pipe. This new approach, called "Interactive Process Hollowing", has the potential to make defense evasion stealthier.
Honeypots Unveiled: Proactive Defense Tactics for Cyber Security, Phoenix Sum...APNIC
Adli Wahid, Senior Internet Security Specialist at APNIC, delivered a presentation titled 'Honeypots Unveiled: Proactive Defense Tactics for Cyber Security' at the Phoenix Summit held in Dhaka, Bangladesh from 23 to 24 May 2024.
How to make a complaint to the police for Social Media Fraud.pdf
Basics of internet of things
1. Basics of Internet of Things
Summary
Internet of Things (IoT) is a cutting-edge automation and analytics system that uses networking,
sensing, artificial intelligence, and big data to deliver complete product or service systems. Key
features of IoT include- artificial intelligence, sensors, connectivity, active engagement, small
devices.
Unique features of flexibility, ability, and adaptability of IoT systems make them applicable to
multiple industries in any environment. They improve automation, data collection, operation and
much more by means of intelligent devices and commanding enabling technology.
Key features of IoT include- artificial intelligence, sensors, connectivity, active engagement, small
devices. IoT has several advantages and disadvantages as well. Advantages include- enhanced
customer engagement, optimized technology, reduced waste, improved data collection.
Disadvantages include- lack of security and flexibility, complexity, privacy, and compliance.
2. Internet of Things (IoT) is a cutting-edge automation and analytics system that uses networking, sensing, artificial
intelligence, and big data to deliver complete product or service systems. This, while applied to any system or industry
allows greater control, transparency, and performance.
Unique features of flexibility, ability, and adaptability of IoT systems make them applicable to multiple industries in
any environment. They improve automation, data collection, operation and much more by means of intelligent
devices and commanding enabling technology.
Key Features of IoT
IoT has these following key features-
• Artificial Intelligence: IoT basically transforms anything into “smart”, which means that it enhances every aspect of
life with data collection power, networks, and artificial intelligence algorithms.
• Sensors: Sensors is another distinctive feature of IoT. They act as defining tools that transform IoT into an active
system capable of real world integration from a standard passive device network.
3. Connectivity: New networking technologies and IoT networking in particular mean that networks are no longer exclusively linked to major
providers. There can be networks on a much smaller and cheaper scale while they are still practical. IoT builds these small networks between
its system devices.
Active Engagement: Much of the present day interaction with related technology occurs through passive engagement. IoT is introducing a new
paradigm for engaging active content, product or service.
Small Devices: The devices have become smaller, cheaper and more powerful over time, as predicted. IoT uses targeted small devices to
deliver their accuracy, scalability and versatility.
Advantages of IoT
Here are some major advantages of IoT-
• Enhanced Customer Engagement: Present analytics suffer from blind spots and serious flaws in precision, and, therefore, engagement
remains passive. IoT completely changes this to achieve richer and more effective audience engagement.
• Optimized Technology: The same technology and data that improve customer experience also improve the use of devices and help in more
powerful technological improvements. IoT unlocks a world of critical field and functional data.
4. Reduced Waste: IoT clarifies areas of improvement. Current analytics provide us with superficial insights, but IoT
provides real world information that leads to more efficient resource management.
Improved Data Collection: Modern data collection is limited and designed for passive use. IoT breaks it out of these
spaces and places it where people really want to go in order to analyse the world. It gives an accurate picture of all.
Disadvantages of IoT
IoT presents a number of challenges too-
• Security: IoT build a permanent ecosystem of connected devices that communicate across networks. Despite all
security measures, the system offers little control. This allows users to be exposed to different types of attackers.
• Complexity: In terms of design, deployment and maintenance, IoT systems sometimes are complicated, as they
exploit multiple technologies and a wide range of new enabling technologies.
• Privacy: The superiority of IoT provides detailed substantial personal information without the active participation
of the user.
• Flexibility: The flexibility of an IoT system for an easy integration with another system is another matter of concern.
Users may find several conflicting or locked systems
5. Key Points
• 1.Key features of IoT include- artificial intelligence, sensors, connectivity, active engagement,
small devices.
• 2.IoT basically transforms anything into “smart”, which means that it enhances every aspect of life
with data collection power, networks, and artificial intelligence algorithms.
• 3.IoT has several advantages including- enhanced customer engagement, optimized technology,
reduced waste, improved data collection.
• 4.IoT builds these small networks between its system devices. IoT introduces a new paradigm for
engaging active content, product or service.
• 5.Disadvantages include- lack of security and flexibility, complexity, privacy, and compliance.
Published by Brainware University