The Smart Commons: An Experiment in Sensor-Based Space Assessment of Learning Environments (original) (raw)
Now a day, home automation is becoming more Popular and more advantageous. In this project we have implemented home automation and control using raspberry pi3 by IoT. The raspberry pi is a single board computer and which is Prominent. It has been pooled with three different concepts which is merely for home appliances control and security purpose .Internet of things is a idea that aims to expand the qualities of regular internet connectivity, remote control, sharing of data which does not push for any physical interaction. The main hardware for this system contain: raspberry pi3,DC motor, smoke sensor, wireless transceiver ,relay modules. It is programmed by using python that is inherited with raspberry.
IRJET-Environmental Monitoring Using Wireless Sensor Networks(WSN) based on IOT
- In recent years, we have seen a new era of short range wireless technologies like Wi-Fi, Bluetooth [7], ZigBee [6], emerging in front of us. The project aims at building a system which can be used on universally at any scale to monitor the parameters in each environment. Raspberry-pi and sensors collects all the real-time data from environment and this real-time data is fetched by the web server and display it. User can access this data from anywhere through Internet. Raspberry Pi works as a base station which connects the number of distributed sensor nodes via zigbee protocol. Wireless Sensor Networks (WSN) has been employed to collect data about physical phenomenon in various ap¬plications such as habitat monitoring. The Internet of Things (IoTs) can be described as connecting everyday objects like smart-phones, Internet TVs, sensors and actuators to the Internet where the devices are intelligently linked together enabling new forms of communication between things and people, and between things themselves. In wireless sensor network system, the sensor node sense the data from the sensor and that data collects the end tags, end tags send its data to the router and router to coordinator and supply multi-clients services including data display, the whole data will be stored in base station and the stored data will send to the cloud (Ethernet) and the client can visit the base station remotely via (website) Ethernet. Such a sensor are temperature, vibration, pressure, moisture, light, and pollution.
Improvised Home Automation System with Incorporation of WSN and IoT
Nowadays there is a fleeting usage and reliability of vibrant features of the smart devices. So there is a need of connecting these devices through internet to explore their functionality. In the world of Smart homes there exists different systems but failed to provide many functionalities like controlling the devices remotely, overhead in communication, and energy efficiency. This paper provides the solution to the limitation of the existing systems. The monitoring and controlling of smart interconnected homes environmental and safety parameters a Wi-Fi based WSN system is designed. A lightweight MQTT protocol is used for interactions between devices and user. The user can seamlessly control and monitor the devices via Android Application using a Graphical User Interface (GUI) remotely.
Internet of Things (IoT) Enabled Automation Systems | IJSRDV6I90007
IJSRD - International Journal for Scientific Research and Development, 2018
— Internet of Things (IoT) is a technology which enables the computing devices, physical and virtual objects / devices to be connected to the internet so that users can control and monitor devices with greater ease. The Internet of Things has been considered as the third revolution in the digital technology after the computer and the Internet and it brings significant advantages in every field of Automation. The IoT offers huge potential for development of various applications namely
Internet of things (IoT), has an essential influence on all sides of human life. IoT as a prevalent phenomenon is transforming daily life by using the smart features of Radio Frequency Identification (RFID) and Wireless Sensor networks (WSN) technologies. As IoT progresses, it is being extended in size and dimension; improving many contexts of the society such as traditional library system. This research proposes an implementation framework about employing IoT in order to renovate the conventional library systems to smart online library schemes. IoT enables connectivity of a physical object such as a book or any other type of documents to the real time communication technology by using the RFID tags and tiny sensors. Continuous monitoring of the books in a real time and tracking the labeled objects geographically are some desirable characteristics of using the IoT tags. These characteristics of IoT allow implementing an online library supply chain, integrating it with different types of technologies such as Data Base, data gathering, and cloud systems. Internet of things can also provide a global linking between huge number of universities and libraries in the world in real time (24/7). It is concluded that the IoT-based library management systems will be a promising structure that can play a vital role in the human data and knowledge access, helping researchers, designers, and administrators in a more efficient, and smart manner.
A SMART HOME SYSTEM BASED ON SENSOR TECHNOLOGY
This paper presents a new approach to utilize technology in a practical and meaningful manner within a smart home system that can be widely deployed into residential settings. In the modern world, people are rapidly turning to technology as a fast and cost-effective way of improving quality of daily living. This primary goal is to address the needs of the end user by employing networked low-power sensors sensitive to the environment, so it can be altered to their liking. The proposed system consists of following steps: direct environment sensing, collecting and analyzing data and then allowing user to customize the settings and initiate specific commands. This research will present the design and implementation of a practical and simple smart home system, which can be further extended. The system is based on: group of sensors, Raspberry Pi device as a server system and Bluetooth as a communication protocol. These devices can be easily controlled via user-friendly interface for Android phones. The main advantage of the proposed system is that it is a sensible, secure and easily configurable system that provides end users with a neat home automation solution.
A Learning Management System Enhanced with Internet of Things Applications
2018
A breakthrough in the development of online learning occurred with the utilization of Learning Management Systems (LMS) as a tool for creating, distributing, tracking, and managing various types of educational and training material. Since the appearance of the first LMS, major technological enhancements transformed this tool into a powerful application for managing curriculum, providing rich-content courseware, assessment and evaluation, and dynamic collaboration. With several current research fields targeting various technologies related to the LMS, the future promises many changes in its structure, operations, and implementation. The most important technology that is expected to transform many future aspects is the Internet of Things (IoT). In this paper, we provide a framework for a future LMS enhanced by IoT capabilities. We outline several elements of the LMS that will be affected by IoT, and the expected enhancements and changes that IoT will bring to the LMS functionalities. The framework presented for the IoT-enhanced LMS constitutes the main component of a three year research project that is being conducted at the Arts, Sciences, and Technology University (AUL). In this paper, we illustrate the main parts of this project and the implementation plan of each part, including the prospected outcomes and benefits.
Realtime Wireless Smart Sensor System Using Raspberry Pi
— The constant growth of the digital enterprise has led a continuous growth of data sources and data that feeds into a potential big data eco system. With the advent of Internet of Things (IOT), multiple devices are getting connected with each of them being a big source of potential data. One such potential source of constant data feed are sensor devices which monitor wide variety of environmental data such as air pressure, temperate, humidity, orientation and further elements. We could easily envisage various ways of processing this data to suite various business and enterprise needs. The use of Bluetooth low energy (BLE) integrated in the Raspberry PI board along with the beacon technology for data transmissions helps serve the purse of a power and cost efficient solution. This paper present an approach to monitor the environmental data using commodity hardware like the Raspberry PI, sensor tag using BLE. This should help serve as a concept for building a power efficient economic and environmental monitoring solution that can be scaled based on the expanse over which environmental data monitoring is desired. This solution can be easily leveraged multiple other domains including industrial applications given the vast types of sensor hardware that integrate easily with the Pi board. The use of Bluetooth low energy (BLE) integrated in the Pi board along with Beacon technology for data transmissions helps serve the purse of a power efficient solution.
The Monitoring of Water Quality in IoT Environment
In order to ensure the safe supply of the drinking water the quality needs to be monitored in real time. In this paper, a design and development of a low cost system for real time monitoring of the water quality in IOT. The system consists of several sensors are used to measure physical and chemical parameters of the water. The parameters such as temperature, pH, turbidity, conductivity of the water can be measured. The measured values from the sensors can be processed by the core controller. The Raspberry Pi model can be used as a core controller. Finally, the sensor data can be viewed on internet using cloud computing.