Internet of Things or IoT is one of the most crucial technology on which all the appliances are working nowadays. The collaboration of IoT in home automation is one of the most optimal approaches to help you come face to face with the techno savage world. With this, you can admire the beauty of industrial IoT implementation in your daily schedule.
https://www.mobinius.com/blogs/iot-in-home-automation
This document provides an introduction to the Internet of Things (IoT). It begins by outlining upcoming sessions on IoT topics like web architecture, security, and applications. Real-world examples of IoT are then presented, including a smart toothbrush and solutions for improving water access. Key enablers of IoT like cheap sensors and bandwidth are discussed. IoT is defined and distinguished from the internet, noting IoT connects physical objects through sensors. Challenges like addressing billions of devices are addressed through technologies like IPv6. Finally, opportunities from IoT like new industries and the need for basic programming skills are covered.
The document discusses the challenges facing the Internet of Things (IoT) ecosystem. It notes that while IoT has been around for years and includes billions of devices, most current "solutions" require proprietary apps or ecosystems. This fragmentation poses problems for interoperability, scalability, and providing users with a seamless experience. The document argues that an open approach is needed to address these issues, through open standards, cross-manufacturer collaboration, and open source initiatives. It maintains that openness is key to overcoming technical challenges around interoperability, ease of setup, and supporting the large volumes and broad categories of devices that will be needed for IoT to see widespread adoption.
This document discusses using IoT for home automation. It defines IoT as connecting devices to the internet to collect and share data. For home automation, IoT allows controlling devices like AC or lights remotely using a mobile app. Setting automations through a home automation system allows scheduling events like lights turning on at sunset. Implementing a home IoT system requires hardware like Node MCUs or Arduinos connected to devices and sensors, as well as cloud services. Benefits include convenience and energy savings, while costs, internet reliance and security risks are disadvantages. Common smart home applications mentioned are lighting, appliances and security controls.
Innovative Applications for Rural Broadband Community
When internet cafes were first introduced in Indonesia in 1995, they aimed to provide internet access since telephone lines and computers were limited and expensive. Over time, demand for services at these cafes declined as cell phones provided similar access. While Indonesia built thousands of community access points, limited bandwidth due to satellite technology prevented access to high quality video content. To overcome this, repositories of local content were created in various formats that could be easily accessed from these points without relying on slow internet connections. Portals also aimed to facilitate knowledge sharing across communities. Recent applications have focused on connecting farmers through social networks.
GOOGLE ASSISTANT SMART HOME USING A MULTI-LINGUAL SPEECH RECOGNITION SYSTEMIRJET Journal
This document describes a smart home system that allows users to control home appliances like lights, fans, and motors using voice commands to the Google Assistant. The system uses an ESP8266 microcontroller connected to relays to control the appliances. Voice commands are sent to the Google Assistant, decrypted, and sent to the microcontroller over Wi-Fi. The microcontroller then controls the relays and devices. The system aims to provide a low-cost smart home solution that can be controlled in multiple languages using voice commands to the Google Assistant.
This presentation provides an overview of the Internet of Things (IoT). It defines IoT as interconnected computing devices, objects, animals or people that are provided with identifiers to transfer data over a network. The presentation outlines key features of IoT like intelligence, connectivity, sensing, expressing, energy and safety. It discusses technologies enabling IoT such as RFID, WiFi, barcodes, ZigBee and sensors. Examples of IoT applications mentioned include environmental monitoring, infrastructure management, industrial uses, energy management, healthcare, home automation and transport. Advantages include improved communication, automation, monitoring and efficiency while disadvantages include compatibility, privacy and security issues. The future of IoT is predicted to include world sensor networks, home
TIA DevTalk Lampung - How IoT can Reshape the Future of Digital Products Alwin Arrasyid
This document discusses how IoT can reshape digital products and the future of a company called DycodeX. It describes how DycodeX started by developing a photo collecting service for weddings but identified problems with relying on manual processes. This led them to explore IoT to automate tasks, reduce costs, and make processes more reliable. Now, DycodeX designs all electronics and develops all firmware and software in-house in Indonesia. They collaborate with telecom companies to test IoT networks and help farmers through an IoT-based cattle monitoring product. Implementing IoT as the core of their business has opened opportunities and challenges.
Internet of Things or IoT is one of the most crucial technology on which all the appliances are working nowadays. The collaboration of IoT in home automation is one of the most optimal approaches to help you come face to face with the techno savage world. With this, you can admire the beauty of industrial IoT implementation in your daily schedule.
https://www.mobinius.com/blogs/iot-in-home-automation
This document provides an introduction to the Internet of Things (IoT). It begins by outlining upcoming sessions on IoT topics like web architecture, security, and applications. Real-world examples of IoT are then presented, including a smart toothbrush and solutions for improving water access. Key enablers of IoT like cheap sensors and bandwidth are discussed. IoT is defined and distinguished from the internet, noting IoT connects physical objects through sensors. Challenges like addressing billions of devices are addressed through technologies like IPv6. Finally, opportunities from IoT like new industries and the need for basic programming skills are covered.
The document discusses the challenges facing the Internet of Things (IoT) ecosystem. It notes that while IoT has been around for years and includes billions of devices, most current "solutions" require proprietary apps or ecosystems. This fragmentation poses problems for interoperability, scalability, and providing users with a seamless experience. The document argues that an open approach is needed to address these issues, through open standards, cross-manufacturer collaboration, and open source initiatives. It maintains that openness is key to overcoming technical challenges around interoperability, ease of setup, and supporting the large volumes and broad categories of devices that will be needed for IoT to see widespread adoption.
This document discusses using IoT for home automation. It defines IoT as connecting devices to the internet to collect and share data. For home automation, IoT allows controlling devices like AC or lights remotely using a mobile app. Setting automations through a home automation system allows scheduling events like lights turning on at sunset. Implementing a home IoT system requires hardware like Node MCUs or Arduinos connected to devices and sensors, as well as cloud services. Benefits include convenience and energy savings, while costs, internet reliance and security risks are disadvantages. Common smart home applications mentioned are lighting, appliances and security controls.
Innovative Applications for Rural Broadband Community
When internet cafes were first introduced in Indonesia in 1995, they aimed to provide internet access since telephone lines and computers were limited and expensive. Over time, demand for services at these cafes declined as cell phones provided similar access. While Indonesia built thousands of community access points, limited bandwidth due to satellite technology prevented access to high quality video content. To overcome this, repositories of local content were created in various formats that could be easily accessed from these points without relying on slow internet connections. Portals also aimed to facilitate knowledge sharing across communities. Recent applications have focused on connecting farmers through social networks.
GOOGLE ASSISTANT SMART HOME USING A MULTI-LINGUAL SPEECH RECOGNITION SYSTEMIRJET Journal
This document describes a smart home system that allows users to control home appliances like lights, fans, and motors using voice commands to the Google Assistant. The system uses an ESP8266 microcontroller connected to relays to control the appliances. Voice commands are sent to the Google Assistant, decrypted, and sent to the microcontroller over Wi-Fi. The microcontroller then controls the relays and devices. The system aims to provide a low-cost smart home solution that can be controlled in multiple languages using voice commands to the Google Assistant.
This presentation provides an overview of the Internet of Things (IoT). It defines IoT as interconnected computing devices, objects, animals or people that are provided with identifiers to transfer data over a network. The presentation outlines key features of IoT like intelligence, connectivity, sensing, expressing, energy and safety. It discusses technologies enabling IoT such as RFID, WiFi, barcodes, ZigBee and sensors. Examples of IoT applications mentioned include environmental monitoring, infrastructure management, industrial uses, energy management, healthcare, home automation and transport. Advantages include improved communication, automation, monitoring and efficiency while disadvantages include compatibility, privacy and security issues. The future of IoT is predicted to include world sensor networks, home
TIA DevTalk Lampung - How IoT can Reshape the Future of Digital Products Alwin Arrasyid
This document discusses how IoT can reshape digital products and the future of a company called DycodeX. It describes how DycodeX started by developing a photo collecting service for weddings but identified problems with relying on manual processes. This led them to explore IoT to automate tasks, reduce costs, and make processes more reliable. Now, DycodeX designs all electronics and develops all firmware and software in-house in Indonesia. They collaborate with telecom companies to test IoT networks and help farmers through an IoT-based cattle monitoring product. Implementing IoT as the core of their business has opened opportunities and challenges.
This presentation gives an idea of how IOT is shaping Telco vendors network architecture and business models. The space of IOT and its opportunities and challenges
The document describes an internship project on developing a smart home automation system using Internet of Things (IoT) technology. The objectives were to familiarize with basic IoT concepts and analyze home automation using IoT. Over four weeks, the intern studied IoT, its components, latest projects, and implemented a project. The project uses an ESP8266 WiFi module, Arduino, relays and a Blynk app to control appliances remotely. Experimental results showed successful remote control of appliances over WiFi. The system provides home security and automation at low cost. Future work may include cross-platform deployment and controlling more appliances.
Remote Control of Home Appliances with Smart Energy Efficient Model using And...IRJET Journal
This document proposes a system to remotely control home appliances using an Android application and Raspberry Pi microcontroller board. A Raspberry Pi located in the home will be connected to electronic devices and relays. It can receive commands from a customized Android app over the internet through Microsoft Azure cloud services. The app allows users to control devices from anywhere. An algorithm is also proposed to automatically optimize energy consumption by calculating total power usage and shutting devices off if a threshold is exceeded. The system aims to provide convenient, remote control of home appliances with security using affordable hardware and open-source software.
The document outlines a lecture on the Internet of Things (IoT). It defines IoT as a system of connected devices that can collect and share data without human intervention. Examples include smart refrigerators and air conditioners. The reasons for IoT include human desires for comfort, convenience, and remote control capabilities. IoT devices use sensors to collect real-time data and have unique IDs to enable communication. While challenges exist, IoT has many applications like environmental monitoring and can transform businesses and lives.
The document discusses the Internet of Things (IoT), which connects physical objects through sensors, software and network connectivity. It describes how IoT works by collecting data from sensors, analyzing it using algorithms, and transmitting results to servers for decision making. Key enabling technologies for IoT include RFID, sensors, smart technologies and nanotechnologies. The document outlines various applications of IoT like smart homes, manufacturing and healthcare. It also notes challenges of IoT like security, connectivity and power constraints. Statistics show the growing number of IoT connections worldwide between 2012-2020.
The document discusses the Internet of Things (IoT), which connects physical objects through sensors, software and network connectivity. It describes how IoT works by collecting data from sensors, analyzing it using algorithms, and transmitting results to servers for decision making. Key enabling technologies for IoT include RFID, sensors, smart technologies and nanotechnologies. The document outlines various applications of IoT like smart homes, manufacturing and healthcare. It also discusses challenges of IoT and the rapid growth in the number of IoT connections expected in coming years.
This document discusses home automation using the Internet of Things (IoT). It defines home automation as introducing computerized control over home appliances like lights and fans. IoT is described as physical objects connected to the internet that can interact with their environment. The benefits of home automation using IoT are listed as energy efficiency, savings, convenience, and remote control of home functions. A basic system design is presented involving connecting sensors to devices, a web server page for monitoring and control via HTML, and cloud storage of data. The conclusion states that IoT will revolutionize home automation in the next 5 years with an expected 50 billion connected devices by 2020.
This document describes an IoT platform as a service that aims to simplify integrating and managing IoT solutions. It addresses common problems like choosing the right hardware and software combinations and the effort required for integration and management. The proposed solution seamlessly integrates existing devices with a real-time cloud platform that can be controlled via an app at a reasonable cost, allowing users to focus on building applications while the platform handles management. The platform impacts areas like automating tasks, smart cities, healthcare, and more industry domains. It offers ready-to-use products, an enterprise PaaS, and developer tools.
This document discusses a new LED-based Wi-Fi technology called WiFO that was invented by researchers at Oregon State University. WiFO uses modulated LED lights to transmit data wirelessly and can increase transmission bandwidth by 10 times compared to traditional Wi-Fi. It is integrated with existing Wi-Fi systems to alleviate bandwidth congestion in public areas and offices with many concurrent online devices. WiFO is capable of transmitting data at speeds up to 100 mbps to individual users, which is 10 times faster than current Wi-Fi speeds per user. It uses inexpensive components like photodiodes.
IRJET - Google Assistant Controlled HomeIRJET Journal
This document describes a home automation system that allows users to control home appliances like lights and fans using voice commands to the Google Assistant. The system uses a Raspberry Pi board connected to relays to control the appliances. IFTTT is used to send commands from the Google Assistant to the Raspberry Pi via the Particle.io platform. The system provides a low-cost way for people to automate their homes using voice control.
This document introduces QIoT Suite Lite, a private IoT cloud platform from QNAP. It discusses the limitations of public IoT clouds in terms of security, bandwidth optimization, latency, and lack of internet connectivity. QIoT Suite Lite provides a private cloud solution that stores data locally on QNAP NAS devices. This allows users to build IoT applications without streaming all data to the cloud. The document provides examples of how QIoT Suite Lite has been used for education and agriculture applications by providing local storage, connectivity for sensors, and data analysis tools. It also notes the platform works with common IoT protocols and industrial field gateways.
Internet Of Things (IOT) For BeginnersSrashti Jain
IOT refers Internet Of Things. Nowadays IOT plays an important role and IOT is more in demand in the market. Many top companies are using IOT. By joining IOT Training Course you'll be placed in the top MNC.
Seamlessly connect any device to your Odoo database with all new Odoo IoT Box. With Odoo IoT Box, Odoo facilitates integrating the IoT technology to the business workflows, making it simpler and smart
This document discusses home automation using Internet of Things (IoT). It begins by stating that homes in the 21st century will become increasingly automated and self-controlled due to the convenience it provides. It then discusses how a home automation system allows users to control electric appliances remotely. Wireless systems are preferable to wired systems for home automation due to lower installation costs, easier expansion, and aesthetic benefits. The document outlines some key advantages of wireless home automation systems and provides examples of related work in the area. It concludes by stating that the proposed home automation system using IoT has been experimentally shown to work by connecting simple devices and controlling them remotely via the internet.
IoT is changing the world rapidly. From agriculture to modern science, IoT is every where in between. But what we mean by IoT? When we say IoT or Internet of Things, we refer to so many physical devices which are connected to each other through the internet for sharing and collecting data. v
The document provides an overview of the Internet of Things (IoT) with the following key points:
1. The IoT connects physical devices to the internet and is much larger in scale than previous internet trends, allowing devices to communicate without human intervention.
2. For the IoT to reach its full potential, standards such as IPv6 must be adopted to provide enough addresses for billions of connected devices.
3. Security is a major challenge as more devices connect without oversight, opening opportunities for hackers to access private information from home cameras and other connected appliances.
4. While the IoT is already emerging, widespread adoption by enterprises will still take 5 years as standards and security issues are addressed, though
This document discusses Internet of Things (IoT) and how it can be enabled using LiFi technology. IoT allows physical objects to collect and exchange data over existing network infrastructure. It works by using capabilities like communication, identification, sensing and actuation. IoT has applications in various fields like manufacturing, healthcare, transportation and more. LiFi uses visible light communication instead of radio waves for wireless data transmission. It provides benefits like higher data rates, availability anywhere, security and energy efficiency. Some challenges of LiFi include line of sight requirement and interference from other light sources. Overall, LiFi could replace WiFi hotspots and enable a cleaner and more efficient wireless future.
The document discusses the architecture of Internet of Things (IoT) systems. It describes the typical 4-stage architecture as having 4 phases: 1) sensors and actuators that collect data, 2) an internet gateway that connects devices to the network, 3) edge computing that processes data at the edge, and 4) data centers and cloud computing that analyze and store large amounts of data. The architecture ensures data flows securely from connected "things" like sensors to the internet and cloud. Understanding this architecture explains what happens behind the scenes when commands are given to smart devices and systems.
This presentation gives an idea of how IOT is shaping Telco vendors network architecture and business models. The space of IOT and its opportunities and challenges
The document describes an internship project on developing a smart home automation system using Internet of Things (IoT) technology. The objectives were to familiarize with basic IoT concepts and analyze home automation using IoT. Over four weeks, the intern studied IoT, its components, latest projects, and implemented a project. The project uses an ESP8266 WiFi module, Arduino, relays and a Blynk app to control appliances remotely. Experimental results showed successful remote control of appliances over WiFi. The system provides home security and automation at low cost. Future work may include cross-platform deployment and controlling more appliances.
Remote Control of Home Appliances with Smart Energy Efficient Model using And...IRJET Journal
This document proposes a system to remotely control home appliances using an Android application and Raspberry Pi microcontroller board. A Raspberry Pi located in the home will be connected to electronic devices and relays. It can receive commands from a customized Android app over the internet through Microsoft Azure cloud services. The app allows users to control devices from anywhere. An algorithm is also proposed to automatically optimize energy consumption by calculating total power usage and shutting devices off if a threshold is exceeded. The system aims to provide convenient, remote control of home appliances with security using affordable hardware and open-source software.
The document outlines a lecture on the Internet of Things (IoT). It defines IoT as a system of connected devices that can collect and share data without human intervention. Examples include smart refrigerators and air conditioners. The reasons for IoT include human desires for comfort, convenience, and remote control capabilities. IoT devices use sensors to collect real-time data and have unique IDs to enable communication. While challenges exist, IoT has many applications like environmental monitoring and can transform businesses and lives.
The document discusses the Internet of Things (IoT), which connects physical objects through sensors, software and network connectivity. It describes how IoT works by collecting data from sensors, analyzing it using algorithms, and transmitting results to servers for decision making. Key enabling technologies for IoT include RFID, sensors, smart technologies and nanotechnologies. The document outlines various applications of IoT like smart homes, manufacturing and healthcare. It also notes challenges of IoT like security, connectivity and power constraints. Statistics show the growing number of IoT connections worldwide between 2012-2020.
The document discusses the Internet of Things (IoT), which connects physical objects through sensors, software and network connectivity. It describes how IoT works by collecting data from sensors, analyzing it using algorithms, and transmitting results to servers for decision making. Key enabling technologies for IoT include RFID, sensors, smart technologies and nanotechnologies. The document outlines various applications of IoT like smart homes, manufacturing and healthcare. It also discusses challenges of IoT and the rapid growth in the number of IoT connections expected in coming years.
This document discusses home automation using the Internet of Things (IoT). It defines home automation as introducing computerized control over home appliances like lights and fans. IoT is described as physical objects connected to the internet that can interact with their environment. The benefits of home automation using IoT are listed as energy efficiency, savings, convenience, and remote control of home functions. A basic system design is presented involving connecting sensors to devices, a web server page for monitoring and control via HTML, and cloud storage of data. The conclusion states that IoT will revolutionize home automation in the next 5 years with an expected 50 billion connected devices by 2020.
This document describes an IoT platform as a service that aims to simplify integrating and managing IoT solutions. It addresses common problems like choosing the right hardware and software combinations and the effort required for integration and management. The proposed solution seamlessly integrates existing devices with a real-time cloud platform that can be controlled via an app at a reasonable cost, allowing users to focus on building applications while the platform handles management. The platform impacts areas like automating tasks, smart cities, healthcare, and more industry domains. It offers ready-to-use products, an enterprise PaaS, and developer tools.
This document discusses a new LED-based Wi-Fi technology called WiFO that was invented by researchers at Oregon State University. WiFO uses modulated LED lights to transmit data wirelessly and can increase transmission bandwidth by 10 times compared to traditional Wi-Fi. It is integrated with existing Wi-Fi systems to alleviate bandwidth congestion in public areas and offices with many concurrent online devices. WiFO is capable of transmitting data at speeds up to 100 mbps to individual users, which is 10 times faster than current Wi-Fi speeds per user. It uses inexpensive components like photodiodes.
IRJET - Google Assistant Controlled HomeIRJET Journal
This document describes a home automation system that allows users to control home appliances like lights and fans using voice commands to the Google Assistant. The system uses a Raspberry Pi board connected to relays to control the appliances. IFTTT is used to send commands from the Google Assistant to the Raspberry Pi via the Particle.io platform. The system provides a low-cost way for people to automate their homes using voice control.
This document introduces QIoT Suite Lite, a private IoT cloud platform from QNAP. It discusses the limitations of public IoT clouds in terms of security, bandwidth optimization, latency, and lack of internet connectivity. QIoT Suite Lite provides a private cloud solution that stores data locally on QNAP NAS devices. This allows users to build IoT applications without streaming all data to the cloud. The document provides examples of how QIoT Suite Lite has been used for education and agriculture applications by providing local storage, connectivity for sensors, and data analysis tools. It also notes the platform works with common IoT protocols and industrial field gateways.
Internet Of Things (IOT) For BeginnersSrashti Jain
IOT refers Internet Of Things. Nowadays IOT plays an important role and IOT is more in demand in the market. Many top companies are using IOT. By joining IOT Training Course you'll be placed in the top MNC.
Seamlessly connect any device to your Odoo database with all new Odoo IoT Box. With Odoo IoT Box, Odoo facilitates integrating the IoT technology to the business workflows, making it simpler and smart
This document discusses home automation using Internet of Things (IoT). It begins by stating that homes in the 21st century will become increasingly automated and self-controlled due to the convenience it provides. It then discusses how a home automation system allows users to control electric appliances remotely. Wireless systems are preferable to wired systems for home automation due to lower installation costs, easier expansion, and aesthetic benefits. The document outlines some key advantages of wireless home automation systems and provides examples of related work in the area. It concludes by stating that the proposed home automation system using IoT has been experimentally shown to work by connecting simple devices and controlling them remotely via the internet.
IoT is changing the world rapidly. From agriculture to modern science, IoT is every where in between. But what we mean by IoT? When we say IoT or Internet of Things, we refer to so many physical devices which are connected to each other through the internet for sharing and collecting data. v
The document provides an overview of the Internet of Things (IoT) with the following key points:
1. The IoT connects physical devices to the internet and is much larger in scale than previous internet trends, allowing devices to communicate without human intervention.
2. For the IoT to reach its full potential, standards such as IPv6 must be adopted to provide enough addresses for billions of connected devices.
3. Security is a major challenge as more devices connect without oversight, opening opportunities for hackers to access private information from home cameras and other connected appliances.
4. While the IoT is already emerging, widespread adoption by enterprises will still take 5 years as standards and security issues are addressed, though
This document discusses Internet of Things (IoT) and how it can be enabled using LiFi technology. IoT allows physical objects to collect and exchange data over existing network infrastructure. It works by using capabilities like communication, identification, sensing and actuation. IoT has applications in various fields like manufacturing, healthcare, transportation and more. LiFi uses visible light communication instead of radio waves for wireless data transmission. It provides benefits like higher data rates, availability anywhere, security and energy efficiency. Some challenges of LiFi include line of sight requirement and interference from other light sources. Overall, LiFi could replace WiFi hotspots and enable a cleaner and more efficient wireless future.
The document discusses the architecture of Internet of Things (IoT) systems. It describes the typical 4-stage architecture as having 4 phases: 1) sensors and actuators that collect data, 2) an internet gateway that connects devices to the network, 3) edge computing that processes data at the edge, and 4) data centers and cloud computing that analyze and store large amounts of data. The architecture ensures data flows securely from connected "things" like sensors to the internet and cloud. Understanding this architecture explains what happens behind the scenes when commands are given to smart devices and systems.
2. WHAT IS IOT
• IOT stands for Internet of Things
• Electronic devices are connected to a network and can
be operated from a remote location
• Nowadays we use cloud-based app services which
require a good home network connection to connect the
latest IOT devices
• IOT is easy to deploy and run. However why haven’t
many people adopted this technology yet?
3. QUESTIONS WE ASKED
• Why is IOT on the difficult side to setup?
• Why do networks slow down when there are too many
IOT devices connected to the network?
• How do we deploy IOT in large homes and where wifi is
unreachable?
• How do we install IOT without inconveniencing other
devices connected on the same network?
4. THE SOLUTIONS
WE FOUND
• We built a single device, to replace the
functionality of many IOT devices
together
• Each device can be configured with a
speaker, light bulb or CCTV, which
remains 70% of all household devices
• If you do the math, that means reducing
the number of devices on home or
corporate Wi-Fi by around 50%
• This Increases range of the Wi-Fi, and
helps stabilize ping and jitter
5.
6.
7. LOWER IS
BETTER
• Normal IOT high Load
• Normal IOT low Load
• IOTinkering High
Load
• IOTinkering Low Load
8. HIGHER IS
BETTER
• Normal IOT high Load
• Normal IOT low Load
• IOTinkering High
Load
• IOTinkering Low Load
9. REPEATER BASED MODULE
We just didn’t reduce the number of devices to
increase bandwidth by making an all in one solution,
we also added a repeater into our hardware
A repeater amplifies the Wi-Fi Signal across a large
area, fixing the initial problem of Wi-Fi connectivity
to deploy IOT in large homes and institutions