Smart home usant arduino, raspberry i més (nous slides)Oriol Rius
VERSIÓ: Summer Camp Garrotxa 2015 + SAX
Presentació sobre la instal·lació de control domòtic que tinc a casa feta amb OpenHAB, Raspberry PI, Arduinos i molt més.
Smart home using arduino, raspberry pi and moreOriol Rius
Video in:http://goo.gl/QedveZ
Internet of Things Barcelona Meetup - 2015/4/16
Presentation about my personal project at home getting several domotic automations using Arduino, Raspberry PI, OpenHAB and much more.
La revolució dels mini pc raspberry pi, arduino i mésOriol Rius
Presentació de les possibilitats i diferències a més de les opcions alternatives a: Arduino i Raspberry PI.
Video de la presentació: http://youtu.be/bGYKYmDISU0
Heating solution using Panstamp and PythonOriol Rius
Small presentation about how I redesigned the heating system at home.
Presentation's video: http://youtu.be/NA2fmZYHfmw
Python Meetup Barcelona - 25/September/2014
Varanasi Power Distribution Franchisee Model, 2015TechSci Research
The document discusses power distribution franchise models in Varanasi, India. It notes that Varanasi faced high distribution losses of over 20% in 2014, leading to financial issues for the local discom. The input and investment based franchise model, where the franchisee is responsible for supply, metering, billing and infrastructure work, is prominent in India. The report analyzes parameters like losses and sales data, as well as market trends and the competitive landscape, to understand opportunities in improving power distribution in Varanasi.
LVIV IT Arena - SmartHome using low cost componentsOriol Rius
Summary of automated systems that I have at home and demonstration about how to use MIIMETIQ LITE (Nexiona) with Mosquitto, NodeRED and Homie. With devices like C.H.I.P. and ESP8266.
This document describes the development of a home monitoring and automation system using a Raspberry Pi. It began as simple projects like a boiler monitor and webcam but expanded to include sensors, emailing pictures on motion detection, and a website for monitoring. The system was built from scratch using Python, PHP, Apache, jQuery, Ajax, and a MySQL database to create dynamic web pages. It interfaces with various inputs like PIR motion sensors, door detectors, cameras, and outputs like lights and email/SMS alerts. The author refined the system through various iterations to address issues like false alarms, optimize performance, and integrate new devices like a £6 computer board.
Smart home usant arduino, raspberry i més (nous slides)Oriol Rius
VERSIÓ: Summer Camp Garrotxa 2015 + SAX
Presentació sobre la instal·lació de control domòtic que tinc a casa feta amb OpenHAB, Raspberry PI, Arduinos i molt més.
Smart home using arduino, raspberry pi and moreOriol Rius
Video in:http://goo.gl/QedveZ
Internet of Things Barcelona Meetup - 2015/4/16
Presentation about my personal project at home getting several domotic automations using Arduino, Raspberry PI, OpenHAB and much more.
La revolució dels mini pc raspberry pi, arduino i mésOriol Rius
Presentació de les possibilitats i diferències a més de les opcions alternatives a: Arduino i Raspberry PI.
Video de la presentació: http://youtu.be/bGYKYmDISU0
Heating solution using Panstamp and PythonOriol Rius
Small presentation about how I redesigned the heating system at home.
Presentation's video: http://youtu.be/NA2fmZYHfmw
Python Meetup Barcelona - 25/September/2014
Varanasi Power Distribution Franchisee Model, 2015TechSci Research
The document discusses power distribution franchise models in Varanasi, India. It notes that Varanasi faced high distribution losses of over 20% in 2014, leading to financial issues for the local discom. The input and investment based franchise model, where the franchisee is responsible for supply, metering, billing and infrastructure work, is prominent in India. The report analyzes parameters like losses and sales data, as well as market trends and the competitive landscape, to understand opportunities in improving power distribution in Varanasi.
LVIV IT Arena - SmartHome using low cost componentsOriol Rius
Summary of automated systems that I have at home and demonstration about how to use MIIMETIQ LITE (Nexiona) with Mosquitto, NodeRED and Homie. With devices like C.H.I.P. and ESP8266.
This document describes the development of a home monitoring and automation system using a Raspberry Pi. It began as simple projects like a boiler monitor and webcam but expanded to include sensors, emailing pictures on motion detection, and a website for monitoring. The system was built from scratch using Python, PHP, Apache, jQuery, Ajax, and a MySQL database to create dynamic web pages. It interfaces with various inputs like PIR motion sensors, door detectors, cameras, and outputs like lights and email/SMS alerts. The author refined the system through various iterations to address issues like false alarms, optimize performance, and integrate new devices like a £6 computer board.
This document describes a home automation system using Raspberry Pi, MQTT messaging, Grails, and Arduino. The main components are an MQTT broker to organize messages, a Grails/Tomcat web server for centralized logic, a Raspberry Pi, browser interface, and Arduino board. The system allows remote control and monitoring of sensors and devices in real-time through a browser dashboard using MQTT, websockets, and Ajax. An Arduino board interacts with sensors and devices using a relay board and publishes data to MQTT channels.
The rapidly advancing mobile communication technology and the decrease in costs make it possible to incorporate mobile technology into home automation systems. The aim of this project is to develop a system that will provide remote control of home appliances and also provide security against intrusion when the home host is not at home. We propose a mobile-based home automation system that consists of a mobile phone with windows or android platform, raspberry pi, topping pi for led instead of home appliance, fire sensor, and proximity sensor, relay. Led is controlled by the raspberry pi, which operates according to the user commands received from the mobile phone via Cortana (windows platform) and an application (android platform). In our proposed system the raspberry pi will receive command from cloud services like Microsoft Azure for Windows platform and MQTT for Android platform created by user from mobile app. We have also ensure the security aspects which includes intrusion detection using proximity sensor and fire alarm using fire sensor. All sensors are connected to raspberry pi. If any of the previously mention event occurs it will immediately inform user through text sms and also email notification.
This document discusses the Raspberry Pi single board computer. It provides details on the Raspberry Pi's specifications including its ARM processor, RAM, and Linux operating system. It describes possible uses for Raspberry Pi like home servers, web servers, and prototyping. The document outlines how to set up networking, install Java, and deploy web applications to a Raspberry Pi remotely. It also covers connecting hardware like reading analog sensors and controlling devices with digital outputs.
Today Home Automation is one of the growing requirement in the society. This paper presents the implementation of Home Automation using Raspberry Pi. The Raspberry Pi is a basic embedded system and being a low cost single-board computer used to reduce the complexity of systems in real time applications. This application mainly serves as an efficient base to control various home appliance like Fan, Tube light, Refrigerator through mobile based application. The application is designed to provide a facility to user to access control of many appliances used in homes.
Raspberry Pi is a credit-card sized computer developed in the UK by the Raspberry Pi Foundation in 2009 to promote computer science education. It runs Linux and costs less than $35, making it an affordable platform for learning programming through Python and other languages. The Raspberry Pi has various ports and supports HD video output, and has been used in a variety of applications including supercomputers, tablets, phones, web servers, games, security cameras, and more. It aims to provide an inexpensive and open platform for experimenting with programming and electronics.
The Home Automation & Security system is a basic model created using Arduino, Raspberry Pi and Relays to Automate the house. It is very basic in nature and is completed as a part of my internship project
This document provides details on a home automation project using Arduino. The project aims to design a kit that can control AC loads like lights and fans from an Android phone using an Arduino microcontroller. It discusses the components required like a step-down transformer, Arduino, relays, Bluetooth module, and loads. The circuit diagram and Arduino code for controlling relays on button press from a Bluetooth-connected Android app are also provided. The conclusion states that the system provides a flexible and attractive user interface for home automation compared to other systems.
The Raspberry Pi is a credit-card sized computer that can connect to keyboards, monitors and TVs to function similarly to a desktop computer. It was developed by the Raspberry Pi Foundation in the UK to inspire teaching of basic computer science in schools and develop interest in programming. While low in cost at $25-35, the Raspberry Pi runs Linux and can be used for a variety of applications including robotics, programming practice and basic computing tasks.
This document describes a remote home security system using a wireless sensor network and GSM technology. The system aims to detect theft, gas leaks, and temperature changes and send alarm messages remotely. It uses an ARM or AT89S52 controller, GSM module, smoke sensor, LPG sensor, temperature/PIR sensor, infrared sensor, LCD, and MAX232 IC. The system's block diagram shows sensors connecting to an embedded controller that communicates via GSM to authorized mobile phones. It allows monitoring a home security system remotely.
Presentation Smart Home With Home AutomationArifur Rahman
This document provides an overview of a presentation on smart home automation. It discusses how home automation can automate lighting, HVAC, appliances and other systems for improved convenience, comfort, energy efficiency and security. It describes how smart homes can be remotely controlled and monitored, including security, entertainment and information functions. It outlines the various wired and wireless devices used in home automation and popular software options like Linux, Mister House and Heyu. The presentation also includes diagrams of sample home automation architectures and a remote web interface.
This document describes a home automation system using Raspberry Pi, MQTT messaging, Grails, and Arduino. The main components are an MQTT broker to organize messages, a Grails/Tomcat web server for centralized logic, a Raspberry Pi, browser interface, and Arduino board. The system allows remote control and monitoring of sensors and devices in real-time through a browser dashboard using MQTT, websockets, and Ajax. An Arduino board interacts with sensors and devices using a relay board and publishes data to MQTT channels.
The rapidly advancing mobile communication technology and the decrease in costs make it possible to incorporate mobile technology into home automation systems. The aim of this project is to develop a system that will provide remote control of home appliances and also provide security against intrusion when the home host is not at home. We propose a mobile-based home automation system that consists of a mobile phone with windows or android platform, raspberry pi, topping pi for led instead of home appliance, fire sensor, and proximity sensor, relay. Led is controlled by the raspberry pi, which operates according to the user commands received from the mobile phone via Cortana (windows platform) and an application (android platform). In our proposed system the raspberry pi will receive command from cloud services like Microsoft Azure for Windows platform and MQTT for Android platform created by user from mobile app. We have also ensure the security aspects which includes intrusion detection using proximity sensor and fire alarm using fire sensor. All sensors are connected to raspberry pi. If any of the previously mention event occurs it will immediately inform user through text sms and also email notification.
This document discusses the Raspberry Pi single board computer. It provides details on the Raspberry Pi's specifications including its ARM processor, RAM, and Linux operating system. It describes possible uses for Raspberry Pi like home servers, web servers, and prototyping. The document outlines how to set up networking, install Java, and deploy web applications to a Raspberry Pi remotely. It also covers connecting hardware like reading analog sensors and controlling devices with digital outputs.
Today Home Automation is one of the growing requirement in the society. This paper presents the implementation of Home Automation using Raspberry Pi. The Raspberry Pi is a basic embedded system and being a low cost single-board computer used to reduce the complexity of systems in real time applications. This application mainly serves as an efficient base to control various home appliance like Fan, Tube light, Refrigerator through mobile based application. The application is designed to provide a facility to user to access control of many appliances used in homes.
Raspberry Pi is a credit-card sized computer developed in the UK by the Raspberry Pi Foundation in 2009 to promote computer science education. It runs Linux and costs less than $35, making it an affordable platform for learning programming through Python and other languages. The Raspberry Pi has various ports and supports HD video output, and has been used in a variety of applications including supercomputers, tablets, phones, web servers, games, security cameras, and more. It aims to provide an inexpensive and open platform for experimenting with programming and electronics.
The Home Automation & Security system is a basic model created using Arduino, Raspberry Pi and Relays to Automate the house. It is very basic in nature and is completed as a part of my internship project
This document provides details on a home automation project using Arduino. The project aims to design a kit that can control AC loads like lights and fans from an Android phone using an Arduino microcontroller. It discusses the components required like a step-down transformer, Arduino, relays, Bluetooth module, and loads. The circuit diagram and Arduino code for controlling relays on button press from a Bluetooth-connected Android app are also provided. The conclusion states that the system provides a flexible and attractive user interface for home automation compared to other systems.
The Raspberry Pi is a credit-card sized computer that can connect to keyboards, monitors and TVs to function similarly to a desktop computer. It was developed by the Raspberry Pi Foundation in the UK to inspire teaching of basic computer science in schools and develop interest in programming. While low in cost at $25-35, the Raspberry Pi runs Linux and can be used for a variety of applications including robotics, programming practice and basic computing tasks.
This document describes a remote home security system using a wireless sensor network and GSM technology. The system aims to detect theft, gas leaks, and temperature changes and send alarm messages remotely. It uses an ARM or AT89S52 controller, GSM module, smoke sensor, LPG sensor, temperature/PIR sensor, infrared sensor, LCD, and MAX232 IC. The system's block diagram shows sensors connecting to an embedded controller that communicates via GSM to authorized mobile phones. It allows monitoring a home security system remotely.
Presentation Smart Home With Home AutomationArifur Rahman
This document provides an overview of a presentation on smart home automation. It discusses how home automation can automate lighting, HVAC, appliances and other systems for improved convenience, comfort, energy efficiency and security. It describes how smart homes can be remotely controlled and monitored, including security, entertainment and information functions. It outlines the various wired and wireless devices used in home automation and popular software options like Linux, Mister House and Heyu. The presentation also includes diagrams of sample home automation architectures and a remote web interface.