IoT-Based of Automatic Electrical Appliance for Smart Home

The remote control system on electrical equipment in the room can be fulfilled through the internet as an IoT (Internet of Things) implementation. All devices managed from one interface, so home appliances management delivered quickly and conveniently. The main contribution in this research is IP based controlling for rooms with control lights and vertical curtains, and also the temperature of the air conditioner (AC) with IoT Technology. The used hardware is Raspberry Pi 3 as a server, Relay, motor stepper, IR led Transmitter, and temperature sensor DS18B20. For implementation, an android application is built by MIT App Inventor 2. The results show that all features function correctly, but each device responds with a different delay value. Delay time response of a lamp, vertical blind, and AC is up to 1.5 sec, 2.1 sec, and 1.6 sec, respectively.electrical appliances, IoT, controlling system, smart room

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Sistem Kontrol Peralatan Listrik Jarak Jauh Berbasis Arduino

JTEIN: Jurnal Teknik Elektro Indonesia ◽

10.24036/jtein.v2i1.106 ◽

2021 ◽

Vol 2 (1) ◽

pp. 61-64

Author(s):

Nauval Pramana Putra ◽

Irma Husnaini

Keyword(s):

Electrical Energy ◽

Electrical Equipment ◽

The Internet ◽

Android Application ◽

Turn On ◽

Electrical Appliance ◽

Internet Network

The need for electrical energy is vital because electrical equipment generally uses electricity as the main energy. Electricity is energy that comes from petroleum which must be saved in its use. To save electricity usage, it is necessary to use electricity as efficiently as possible by not allowing this energy to be wasted. This paper aims to design an application for controlling electrical equipment remotely using the internet network. This tool uses Esp8266 as a link with the internet network, and uses applications on Android as a controlling media. When esp8266 is connected to the internet network and the on / off button on the android application is pressed, the ac and fan lights will turn on or off according to the button pressed. The results of testing this remote electrical appliance controller are that the tool can work properly turning on or off the lights and fans when connected to the internet without distance restrictions.

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Design of Pervasive Discovery, Service and Control for Smart Home Appliances: An Integration of Raspberry Pi, UPnP Protocols and Xbee

International Journal of Electrical and Computer Engineering (IJECE) ◽

10.11591/ijece.v7i2.pp1012-1022 ◽

2017 ◽

Vol 7 (2) ◽

pp. 1012

Author(s):

Sabriansyah Rizqika Akbar ◽

Maystya Tri Handono ◽

Achmad Basuki

Keyword(s):

Temperature Sensor ◽

Smart Home ◽

Raspberry Pi ◽

Single Board Computer ◽

Home Appliances ◽

Pervasive Technology ◽

Discovery Service ◽

Smart Home Appliances ◽

Upnp Protocol ◽

And Control

Pervasive technology is an important feature in smart home appliances control. With pervasive technology, the user is able to discover and control every device and each service without initialization configuration and setup. Since single-board computer often used in smart home appliances, combining pervasive technology and microcomputer/single-board computer will be important to be applied and make a possibility to create a smart home system based on the requirement of it users that will be beneficial for the smart home users and the developers. This paper proposed a design of pervasive discovery, service, and control system for smart home appliances by integrating Raspberry Pi, UPnP protocols, and Xbee that able to control an RGB LED services such as switching, dimming, change color and read a temperature sensor as an example in smart home appliances. This paper enriched the raspberry Pi GPIO function to be able to control via TCP/IP network with UPnP protocol and receive information from a temperature sensor node via Xbee communication. Service control time is measured with UPnP round trip time by subtracting HTTP response arrival with HTTP request time. GPIO processing time measured at the application level by counting a timer that starts before GPIO process and ended after GPIO successfully executed.

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Smart Home Using Raspberry Pi

International Journal of Scientific Research in Computer Science Engineering and Information Technology ◽

10.32628/cseit195426 ◽

2019 ◽

pp. 153-161

Author(s):

Shauvik Purkayastha ◽

Triporna Kashyap ◽

Navam Pradhan ◽

Rajashree Konwar

Keyword(s):

Smart Home ◽

Automated System ◽

Raspberry Pi ◽

High Tech ◽

Home Automation ◽

Android Application ◽

Human Race

The human race has always been in the quest for a better and easier life and ever since technology begun heavily integrating itself into the society. From the appliances in our kitchen to the phones in our palms, there are many high tech devices that make our lives easier. But it would be more convenient if we could control these devices remotely. An automated system could control machines and perform tasks as per the convenience of the user from long distances. In this paper, we are presenting a proposed system for a Smart Home automation where the user can control home electronic appliances easily and with higher controllability using an android application. To design this system, we are using a Raspberry Pi module. The Raspberry Pi acts as a mini computer.

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Implementation of Smart Home using Wi-Fi to IR through MQTT

International Journal of Recent Technology and Engineering - 2 ◽

10.35940/ijrte.d4305.118419 ◽

2019 ◽

Vol 8 (4) ◽

pp. 7973-7980

Keyword(s):

Wireless Communication ◽

Temperature Sensor ◽

Smart Home ◽

Electronic Devices ◽

Smart Phone ◽

The Other ◽

Home Automation ◽

Air Conditioner ◽

Smart System ◽

Integrated Devices

As there is an advancement in wireless communication there is a wide development in embedding all the devices together and controlling them through a single device. Home automation is a smart system that has been becoming more popular in the present era, where all the devices related to the home are controlled remotely through a Smart Hub. The aim of the project is to develop a Smart Hub and to control multiple IR devices through a Smart Hub using Wi-Fi to IR through MQTT, because it is inconvenient to use multiple remotes for multiple IR devices. Smart Hub consists of peripherals ESP-WROOM-32D (Microcontroller), RT400, IR transmitter, IR receiver, LDR(Light Dependent Resistor) and LM35 as Temperature sensor. All the controlling of these integrated devices can be controlled through a smart phone or tablet. This technology uses ESP-WROOM-32D and web server using mobile phone or tablet having a specific application, one can control the smart system from anywhere or with in a home remotely. This paper describes about the automation of home for a specific electronic devices having IR Transceiver like Television, Air conditioner, Dish box, DVD player and many more. This paper also describes how MQTT protocol is used for the implementation of the present prototype using ESP-WROOM-32D. The other scenario is when we don’t have the IR Transceiver devices like light, fan etc and the devices which are manually operated through electrical switches also can be controlled through IR Transceiver, Arduino and Relays

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Voice Based Hot and Cold-Water Disperser Using Raspberry Pie

International Journal of Scientific Research in Science Engineering and Technology ◽

10.32628/ijsrset196534 ◽

2019 ◽

pp. 138-143

Author(s):

Amar Banmare ◽

Vaibhav L. Umredkar ◽

Nehal Kalbande ◽

Vikas Porgade ◽

Sudhir Kawatghare ◽

...

Keyword(s):

Credit Card ◽

Smart Home ◽

Cold Water ◽

Automated System ◽

Raspberry Pi ◽

Android Application ◽

Human Labour ◽

Control Devices ◽

Sd Card ◽

Main Attraction

In today’s day to day life automation can play a major role. Automation makes thing simple. The main attraction of any automated system is reducing human labour, efforts, time and errors due to human negligence. A Raspberry Pi is a credit card-sized computer which can be used for developing various applications. This project represents a flexible way to control devices. In this project we are working on an android application where a user will provide voice commands for controlling devices such as “COLD & HOT” which will be connected to raspberry pi and according to it the required process will work via Bluetooth connectivity. This automation can be used majorly not only in home but offices and hospitals also in old age home. It allows controlling number of home appliances simultaneously. Python is used as the main programming language which is default, provided by Raspberry Pi. This system requires micro SD card with an OS (LINUX) for Raspberry Pi. Using this we can say a regular home is converted to smart home.

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Conception and implementation of a course for professional training and education in the field of IoT and smart home security

Electronic Imaging ◽

10.2352/issn.2470-1173.2020.3.mobmu-276 ◽

2020 ◽

Vol 2020 (3) ◽

pp. 277-1-277-8

Author(s):

Michael Pilgermann ◽

Thomas Bocklisch ◽

Reiner Creutzburg

Keyword(s):

Smart Home ◽

Professional Training ◽

Raspberry Pi ◽

Science Students ◽

Training And Education ◽

Home Security ◽

Master Level ◽

University Course ◽

Home Technology ◽

Smart Home Technology

The aim of this paper is to describe the new concept of a Master level university course for computer science students to address the issues of IoT and Smart Home Security. This concept is well suited for professional training for interested customers and allows the creation of practical exercises. The modular structure of the course contains lectures and exercises on the following topics: 1. Introduction - IoT and Smart Home Technology and Impact 2. Homematic Technology and Smart Home Applications 3. Loxone Technology and Smart Home Applications 4. Raspberry Pi and Smart Home Applications 5. Security of IoT and Smart Home Systems and contains laboratory exercises of diverse complexities.

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Controlling Electrical Equipment Smart Home System Using Wireless Network Incorporating Internet of Things

Proceedings of the 9th International Conference on Information Communication and Management - ICICM 2019 ◽

10.1145/3357419.3357435 ◽

2019 ◽

Author(s):

Busarin Eamthanakul ◽

Orrawan Rewthong ◽

Sansanee Sansiribhan

Keyword(s):

Internet Of Things ◽

Wireless Network ◽

Smart Home ◽

Electrical Equipment

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Designing of an Advanced Compression Bioreactor with an Implementation of a Low-Cost Controlling System Connected to a Mobile Application

Processes ◽

10.3390/pr9060915 ◽

2021 ◽

Vol 9 (6) ◽

pp. 915

Author(s):

Gözde Dursun ◽

Muhammad Umer ◽

Bernd Markert ◽

Marcus Stoffel

Keyword(s):

Mobile Application ◽

Low Cost ◽

Experimental Information ◽

Raspberry Pi ◽

Tissue Constructs ◽

Cost Controlling ◽

Controlling System ◽

And Control ◽

Tissue Models

(1) Background: Bioreactors mimic the natural environment of cells and tissues by providing a controlled micro-environment. However, their design is often expensive and complex. Herein, we have introduced the development of a low-cost compression bioreactor which enables the application of different mechanical stimulation regimes to in vitro tissue models and provides the information of applied stress and strain in real-time. (2) Methods: The compression bioreactor is designed using a mini-computer called Raspberry Pi, which is programmed to apply compressive deformation at various strains and frequencies, as well as to measure the force applied to the tissue constructs. Besides this, we have developed a mobile application connected to the bioreactor software to monitor, command, and control experiments via mobile devices. (3) Results: Cell viability results indicate that the newly designed compression bioreactor supports cell cultivation in a sterile environment without any contamination. The developed bioreactor software plots the experimental data of dynamic mechanical loading in a long-term manner, as well as stores them for further data processing. Following in vitro uniaxial compression conditioning of 3D in vitro cartilage models, chondrocyte cell migration was altered positively compared to static cultures. (4) Conclusion: The developed compression bioreactor can support the in vitro tissue model cultivation and monitor the experimental information with a low-cost controlling system and via mobile application. The highly customizable mold inside the cultivation chamber is a significant approach to solve the limited customization capability of the traditional bioreactors. Most importantly, the compression bioreactor prevents operator- and system-dependent variability between experiments by enabling a dynamic culture in a large volume for multiple numbers of in vitro tissue constructs.

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