Cloud Based Electrical Device Control Middleware APIs for IoT

At present, industries are rapidly shifting towards automation. Today's industrial automations mostly based on programmable controllers and robots. In order to do the tedious work and to serve the mankind, automation is developed in industries. DC motor plays an important role in various industries hence we selected it. This project present a system to provide protection, control and monitoring the condition of DC motor. Here Arduino Uno and various sensors like current, voltage, speed and temperature sensors are used. Real time values of various parameters like current, voltage, temperature and speed can be monitored in ThingSpeak mobile app. By continuous monitoring, the motor can be protected against fault like short circuits, overloading, overheating etc. hence machine performance is improved.

International Journal for Research in Applied Science & Engineering Technology (IJRASET), 2022

Today's application of single phase induction motor is increased due to it simple operation and availability of single phase supply in every place. The single phase motor available in different rating, Different speed and used for different application. The single induction motor is used for particular operation need to protect motor and need to control parameters of single phase induction motor and monitor this data to user operator. This is possible with help of IOT in this project single phase induction motor parameter monitoring and speed control is done through IOT base system. In this project the parameters of the motor is continuously recorded and send to the user operator through the cloud internet to end user application module.

2019

This paper presents an implementation of a control algorithm to a cloud system. The motivation is that cloud implementations of low-level systems in the production industry are gradually becoming more common. Microsoft Azure platform is utilized for the cloud-based control and the case is tested using a customized laboratory model, which can be presented as an agent in a typical production system. The model offers the regulation of a ball on an inclined surface and uses two asynchronous motors connected to frequency converters to control the position of the ball. These frequency converters are controlled by a Programmable Logic Controller (PLC). Windows Communication Foundation (WCF) services and Azure IoT Hub were selected to be used with the cloud-based control system. Experimental results have shown our solution can control the system with sampling period equal or higher than 100ms. The latency of WCF service is at around 100ms and latency of Azure IoT Hub is at around 1000ms, so...

Journal of emerging technologies and innovative research, 2021

Now days, the induction motor has remained the most popular type of motor for industrial applications. Monitoring and controlling of induction motor parameter is very essential in many application and also for the reliable operation there are several techniques available for the same. This paper deals with the monitoring of various parameters & control of three phase induction motor and various electrical appliances remotely based on Internet Of Things [IOT]. A module of sensor and transducers monitors the parameters likes speed, temperature, current and voltage of induction motor and send to the processing unit which will display parameter on server. The aim is to design and implementation of IoT technology to monitor and diagnose the condition of Induction motors by recording key operation indicators. The proposed method comprises of an IoT based platform to collect and process the induction motor parameters. The system also presents the automatic and manual control methods to stop or start the induction motor to avoid any system failures through server gateway. The Implementation of this scheme will increase the working efficiency of machine by continuously monitor to avoid breakdowns and also to determine the preventive maintenance.

International Journal for Research in Applied Science & Engineering Technology (IJRASET), 2022

Industry 4.0 is a huge step forward in the industrialization process. Modern environment industries are seeing fast growth in terms of performance capabilities and expectations for corporate clients and the industrial sector in recent years. The Internet of Things (IoT) is a cutting-edge and quickly expanding sector for network automation, data sensing, data mining, and control. These systems have a strong inclination to monitor and regulate various industrial processes. Because of its costeffectiveness and adaptability, IoT systems have been adopted and have applications in a variety of sectors. In this project, we're creating a prototype that features real-time AC motor control through a wireless network. Data may be saved, monitored, and then transported to cloud storage with the aid of this technology.

SSRN Electronic Journal, 2019

International Journal for Research in Applied Science & Engineering Technology (IJRASET), 2022

Industrial automation has historically been finished with wired structures. Wireless versions swiftly rising in commercial communique because of the extended ease of setting up with wireless structures. In addition to the capacity wired structures are bulky. Industrial automation structures are used for circumstance monitoring, control programs, and the mobile workforce. Common to all commercial automation programs are the necessities for international availability of components, coexistence among wired and wireless technologies, lifetime, security, and interoperability. The wireless generation is hastily rising to fulfill those needs. Industry 4.0 is revolutionizing the manner organizations manufacture, enhance and distribute their products. Manufacturers are integrating new technologies, together with the Internet of Things (IoT), cloud computing and analytics, and AI and machine learning into their manufacturing centres and in the course of their operations. This digital technology results in improved automation, predictive maintenance, self-optimization of techniques enhancements and, above all, a brand-new degree of efficiencies and responsiveness to clients now no longer formerly possible. Using high-tech IoT devices in smart factories ends in better productiveness and progressed best. Replacing manual inspection enterprise models with AIpowered visible insights reduces production mistakes and saves cash and time. With minimum investment, quality control personnel can set up a smart phone linked to the cloud to monitor production processes from simply anywhere. By making use of machine learning algorithms and equipping themselves with the right tools now, such as rugged IT equipment, enterprise resource planning and manufacturing execution systems, manufacturers can create an IT infrastructure that allows them to capitalize on these exciting new technologies at the earliest opportunity.

Indonesian Journal of Electrical Engineering and Computer Science, 2017

Cloud robotics is an emerging field that is centred on the benefits of converged infrastructure and shared services of a cloud computing environment. In this paper, a system is designed with an autonomous Pick and Place robot to sense environmental data such as temperature and Motion, along with GPS coordinates and sends them on the cloud. The mobile robot is controlled using an LPC1764 microcontroller and communicates with the cloud via a CC3200 Launchpad. A private cloud is set up using Open Stack that provides Infrastructure as a Service. The collected data are stored in a cloud server which could be viewed through a mobile app and can be used to create awareness about the environmental changes of the location under study. A proof-of-concept prototype has been developed to illustrate the effectiveness of the proposed system.

This paper has style and development of a robotic arm manipulator victimisation net of things with low value. Tele-robotics refers to regulate a mechanism from an overseas finish. The robotic arm has controlled by wirelessly is incredibly useful for broad vary of applications that starting from medical fields, automations in industries. With the recognition and widespread use of net, it becomes a straight forward task for anyone to regulate and monitor the robots from an overseas finish. During this project, a robotic arm is meant to be controlled by a licensed person at any time and from anywhere victimisation the online technology. With an internet server, it becomes simple to regulate devices from an overseas web site. The net based mostly robotic Tele-operations realize nice utility in applications that are dangerous, hostile, and inaccessible to humans and areas of labor no matter geographical locations. Thanks to the growing awareness, technological support, knowledge transmission protocols, easy use and low value the net has well-tried to be the foremost appropriate infrastructure for worldwide access and knowledge exchange.

2017 International Conference on Electrical, Computer and Communication Engineering (ECCE)

The world of control is an exciting field that has exploded with new technologies where the Internet of Things (IoT) vision becomes reality. This paper proposes a multiple motion controlling mechanism of a robotic car using Raspberry Pi which works as master and Arduino UNO which works as slave. Each device is uniquely identifiable by the controlling software which is the core concept of IoT. Client manages the activities of the car from remote or distant places over the internet by voice commands and Universal Windows Application and also able to get data and feedback. The main contribution of this paper is that it leverages the efficiency of robot's motion controlling system because robotic car can receive direct commands at a time from multiple sources which make the maneuvering system more efficient. Both device and client do not need to be online at the same time. Commands and data are stored in cloud service which delivers them when the device is ready to receive. A GPS system is incorporated thus clients can trace the car. The system has ultrasonic distance sensor for avoiding obstacles coming in between its path. We present the architecture and design of the Raspberry Pi and Arduino communication software and illustrate how to control the car by means of commands and application.