Iot Sensor Solutions For Smart Appliances And Energy Conservation

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Iot Sensor Solutions For Smart Appliances And Energy Conservation

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Digitizing Homes: Making Everyday Appliances Smarter With Iot And Ai

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Cristina Stolojescu-Crisan Cristina Stolojescu-Crisan Scilit Preprints.org Google Scholar 1, *, Calin Crisan Calin Crisan Scilit Preprints.org Google Scholar 2 and Bogdan-Petru Butunoi Bogdan-Petru Butunoi Scilit Google Scholar 3org.

Home Smart Iot Home: Domesticating Iot

Received: 15/04/2021 / Revised: 15/05/2021 / Approved: 26/05/2021 / Published: 30/05/2021

(This article is part of a selection of special issues from the ISETC 2020 International Symposium on Electronics and Telecommunications)

Home automation has grown in popularity in recent years as technology has made everyday life easier. Almost everything is digital and automated. This paper proposes a system for integrating sensors, actuators and other data sources for several home automation applications. The system is called qToggle and it works by leveraging the power of a flexible and powerful application program interface (API) that forms the basis of a simple and universal communication system. Devices used by QToggle are typically sensors or actuators with an upstream connection that implements the qToggle API. Most devices used by QToggle are based on ESP8266/ESP8285 chips and/or Raspberry Pi boards. A smartphone app has been created that allows users to control multiple home appliances and sensors. The QToggle system is user-friendly, flexible, and can be further enhanced with a variety of accessories and add-ons.

Power Of Iot With Ubibot’s Wireless Temperature Sensor Solutions By Ubibot

The Internet of Things (IoT) is a system that allows devices to be connected and controlled remotely over the Internet. In recent years, the concept of IoT has grown rapidly and is now used in smart homes, telemedicine, industrial environments, etc. It is used in several fields such as [1]. Wireless sensor network technologies integrated in IoT enable global connectivity of smart devices with advanced functions [2]. A wireless home automation system consisting of sensors and actuators that share resources and communicate with each other is a key technology for building smart homes. The “smart home” is part of the IoT paradigm and aims to integrate home automation. When things and devices in the home are connected to the Internet, users can control and manage them remotely [3]. These include light switches that can be turned on and off by smartphone or voice command, thermostats that adjust indoor temperatures and generate energy consumption reports, or smart irrigation systems that turn on at specific times of the day. customized monthly schedule and thus controls water wastage. Smart home solutions have become very popular in recent years. Figure 1 shows an example of a smart home using various IoT related devices.

One of the biggest advantages of home automation systems is that they can be easily controlled and controlled by various devices such as smartphones, laptops and desktop computers, tablets, smart watches or voice assistants. Home automation systems offer several advantages; they increase security with appliance and lighting control, protect the home with automatic door locks, increase awareness with security cameras, increase comfort with temperature control, save valuable time, control and money.

Academic researchers have proposed IoT-related home automation systems in the literature over the past decade. Wireless home automation systems use a variety of technologies, each with advantages and disadvantages. For example, Bluetooth-based automation [4, 5, 6] is cheap, fast, and easy to install, but is limited to short distances. GSM and ZigBee are also widely used wireless technologies. GSM offers long-distance communication by subscribing to a mobile phone service provider operating in the area. Zigbee [7, 8, 9, 10, 11, 12] is a wireless networking standard designed to be cheap and low-power. Focused on battery powered devices in wireless control and monitoring applications. However, the data is low, the throughput is low, and the network stability is low, and the maintenance cost is very high. Wi-Fi technology is used [9, 11, 12, 13, 14, 15, 16, 17, 18]. The advantages of Wi-Fi technology over ZigBee or Z-Wave are related to cost, complexity (ie, simplicity) and availability. First, Wi-Fi-enabled smart devices are getting cheaper. It’s also easier to find DIY devices that use Wi-Fi, which is a cheaper option. Second, Wi-Fi is already a necessity and in most homes, so it’s easier to buy devices that already have Wi-Fi. Finally, Wi-Fi is characterized by simplicity, which means that the user only needs to connect a small number of devices to the home automation. As this is common practice, it avoids investing in additional equipment; the user only needs the basic settings of the home automation system. However, Wi-Fi isn’t designed to create mesh networks, uses up to ten times more energy than similar devices using things like ZigBee, Z-Wave or Bluetooth, and many Wi-Fi routers only allow up to thirty devices to connect at once. can give . . Compared to Ethernet, Wi-Fi offers several advantages, including easy connectivity and access to multiple devices, expandability (adding new devices without additional wireless hassles), lower cost, or the need for a single access point. Disadvantages are the limited range of coverage (a Wi-Fi network powered by conventional devices may be limited by walls and other obstacles in a typical home), the number of devices may be limited, the complex effects of interference and propagation, and interference. It blocks the Wi-Fi signal and affects connected devices and connection speed (the fastest Wi-Fi speed is slower than the set), internet security and privacy issues. In the home automation space, inexpensive open source hardware components such as Arduino and Raspberry Pi microcontroller unit (MCU) boards and sensor combinations have been widely used. Home automation with Arduino boards is proposed in publications [3, 19, 20, 21, 22, 23]. Arduino is very flexible, open source, cheap and easy to program [19]. Also, having a large and active user community is a big plus. However, Arduino was not designed to handle the high complexity of advanced projects. For more advanced and real-time projects, Raspberry Pi is a better option. Raspberry Pi is an exciting technological development that is cheaper than any desktop computer or mobile device [24]. Most of the software and projects made with the Raspberry Pi are open source and supported by online user communities that are always excited about new projects. When developing software for Raspberry Pi, Python is the language of choice because it is simpler (fewer lines and complexity) compared to other programming languages. In addition to its low cost, the Raspberry Pi is energy efficient and requires no cooling systems. Smart home automation with Raspberry Pi is proposed in publications [9, 12, 15, 25, 26]. ESP8266 chips are excellent low-cost Wi-Fi modules for IoT projects. The ESP8266 is a single-core processor running at 80 MHz. ESP8266 chips have been used in projects related to home automation [9, 21, 27, 28, 29, 30]. Table 1 compares home automation system specifications published in scientific publications over the past decade.

Powering The Smart Factory With The Internet Of Things

Another class of home automation systems is represented by commercial platforms such as Qivicon, Domintell, Loxone or HomeSeer. It offers a wide range of smart home devices from several vendors, different communication protocols for wired (Domintell) and wireless (Qivicon) transmissions or both (HomeSeer and Loxone) and several automations such as locking system, temperature control, lightning. system, perimeter system, video surveillance (Qivicon and HomeSeer only) or intrusion prevention. All solutions offer a mobile application to monitor the systems. The price level depends on the size of the house and the number of appliances

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