IOT based speech Controlled car is a mobile robot whose motions can be controlled by the user from remote place by giving specific predefined speech instruction through the mobile devices. ...Methodology used to processes the instruction is received by the mobile devices which is enabled with Bluetooth technology and speech can be processed by the speech recognition module of ARM. When an instruction for the car is identified, then voice module sends a command message to the Arduino, it will analyze the message and takes beneficial actions. The aim is to develop a walking car which is controlled by human speech and applied to the automation domain such as robotics, defence and virtual reality. When instructions are given on the bluetooth, the bluetooth module will take the voice commands and the voice commands into digital signals.
In recent years, the Internet of Things (IoT) has become a topic of interest improvement based on technologies that constantly extend advantages of Internet-connected objects. The technology can ...automatically provide information in real-time. One improvement in the fisheries sector is the tank monitoring system. Catfish farmers continue to come to the ponds for routine monitoring. This can affect the time efficiency and effectiveness of fish farming efforts. This study developed an IoT-based water quality monitoring and control information system for catfish ponds using the waterfall method. Necessary sensors are acidity (pH), temperature, and a relay for adjusting the water oxygen aerator. The data sensors are recorded by the Raspberry Pi and processed in the Arduino Uno system to provide information via the Internet according to the automated needs of the user. Also, this data is displayed on different platforms, one of which has a mobile web model. The results show that the system based on IoT technology can carry out automatic monitoring water quality. The automation provided by the information system promises the productivity of catfish ponds.
This paper mainly focuses on establishing a wireless communication to transmit and receive the temperature and humidity monitoring data in wireless mode by interfacing arduino and RF module nRF24L01. ...In recent advancements the wireless communication plays a vital role to make the system faster and easier. In real time application, analog data measurement with human effort may causes error and difficult to store the precious values of parameters. To overcome this problem there is a demand for smart system with automation to monitor all the environment factors. Besides, the smart system should be accurate, reliability and cost effective. In this proposed monitoring system the temperature and humidity data are transferred through wireless data communication using RF module nRF24L01, DHT11 sensor and arduino Uno. Finally the actual temperature and humidity is going to be displayed on the 16*2 LCD with the arduino Uno, nRF24L01 module are interfaced. By this method the wireless communication can be implemented with less price and low consumption of the power. This paper provides the details of implementation and experimentation results of an environmental monitoring system.
Unmanned aerial vehicles (UAVs), better known as drones, are one of the major technological developments of today. Applications that can be created today were just a thought ten years ago and now ...they are becoming a reality. In the world of truly autonomous vehicles, UAVs should react on their own through some sort of external stimuli. It is through these external stimuli that the UAVs react and adjust their goal accordingly. These stimuli can be taken from various sensors on the craft but also can be given commands by a human. Coordination and cooperation in UAV groups also increasingly permit huge numbers of aircrafts to be processed by a single user. We are proposing the real-time algorithm that works possibly under communications, constraints, and other uncertainties and failures. On the basis of the microcontroller Arduino Uno developed an intelligent self-managing intelligent decision-making system, taking into account the basic parameters of the control system of the drone. In addition, in the modeling of the Arduino Uno microcontroller, an algorithm of inertial navigation systems based on the parameters of inclination, lateral and bending angles in flight was implemented and control codes were introduced. The theory of fuzzy logic was used to control the drone. A decision-making algorithm based on fuzzy logic has been developed, which allows real-time control of the drone's flight parameters. Intelligent drone control system has been developed the main elements of drone control have been presented in this paper. The program code is implemented for the Arduino UNO debug board and tested in the Proteus environment. The developed unmanned drone has the ability to quickly maneuver and avoid obstacles. Experiments with an unmanned drone were conducted in the summer. These experiments were carried out at extreme speeds of up to 100 km/h, on a windless day. In addition, the drone was equipped with a portable camera of 3 megapixels. The images were taken at an altitude of 300 meters. Experiments have shown stable operation even in windy weather, at speeds of 10 meters per second.
A greenhouse is an area with arrangement of components and things that is covered with a kind of materials, like a polyethylene or glass roof or mostly covered with green nets; Since the plants, ...corps, soil and other materials inside the structure absorbs visible solar radiation rays from the sun, the structure gets heat up dramatically. As a result the greenhouse gases inside the building increases. Many farmers are unable to make good sum from greenhouses because they are unable to control two critical factors: productivity and plant growth. The smart greenhouse monitoring system is designed to assist farmers in overcoming these challenges. The green house monitoring device is powered up by the arduino and Atmega328 microcontrollers and it includes 12v DC fan, LCD display and sensors such as soil moisture sensor, humidity sensor, temperature sensor, light sensor, Light Dependent Resistors(LDR) sensor and a pump. This paper describes the design, installation, and operation of various sensors used to track and manage the environment automatically in greenhouses using Wireless Sensor Network.
In this paper, we proposed a simulation model for remote monitoring and controlling of water tank level using Blynk tool by adding live status indication facility. As we all know that the water is ...finite and it is one of the vital needs to survive on the earth. Now-a-days, demand for water is also increasing enormously due to increase in water wastage because of numerous reasons like improper reclosing of taps after being used, overflow of tanks, pipe leakages etc. Since most of the water leakages occur in household works, we took a step to conserve water to some extent by avoiding overflow of water tanks. In this modernized world, everyone is busy with their works. So, remote controlling of things gained more importance. That's why we focused on remote controlling of water pumps and live monitoring of water tank levels in our mobile itself with the help of efficient Blynk tool. In this simulation model we designed a virtual water tank in Proteus whose water level is indicated with the help of logic gates. Based on the logic gates value, arduino processes the data and transfers it to the blynk cloud with the help of virtual serial port driver. With this user can able to control the water level from blynk interface through our mobiles. Similarly when the user press button in our mobile to control motor then the data is sent to the arduino and it in turn instructs the motor to act accordingly. Thus saving of water, energy and time has been the main focus of this paper.
Smart water flow monitoring and forecasting system Gosavi, Gaurav; Gawde, Gajanan; Gosavi, Gautam
2017 2nd IEEE International Conference on Recent Trends in Electronics, Information & Communication Technology (RTEICT)
Conference Proceeding
Accurate metering and determining proper tariff, as well as billing system, are vital in water management system. The paper proposes a method to watch and forecast the consumption of the water in the ...domestic pipeline through a web server. There are many systems to do the same, but this is about monitoring consumption of water using the Internet with the help of Raspberry pi and Arduino. The flow rate of the water is measured by Hall Effect sensor based flow meter. Raspberry Pi a micro-computer receives the data from Arduino micro-controller which is connected to the flow meter. The Raspberry pi uploads the data onto cloud infrastructure where database is setup. The web base solution also depicts the day to day consumption of the water to its users and water distributors. The paper also aims at predicting the consumption of the water in future for its users using advance data analytics. This paper also includes demand management, asset management, and leakage management aspects of water management system.
An Accident Protection System(APS) is a technology used to help a motorcycle rider in accidental situations. The critical time gap between the accident and informing to ambulance is vanished with the ...help of APS. Vanishing is done possible with the help of an application build in smartphone. When accident will happen the app will automatically send message to the contact saved in the app and ambulance services. This paper presents switch-over text messaging and describes various advantages of Accident Protection System and also compares the technologies developed in the field of accident protection. The device mainly works on the principle of global positioning system, Bluetooth, multiple functioning arduino uno and switch-over methodology. Meanwhile, the device can be easily manufactured and made compatible with the smartphone app.
A few human beings are effected with various mental disorders like ADHD (Attention Deficit Hyperactivity Disorder). This paper gives the solution for ADHDs; it is able to solve the social ...communication of ADHDs with speech control feedback mechanism by assistive based embedded system. The speech information is filtered with three stages of matched filters. An embedded system is developed with Lab View soft core for speech analyses and ardunio (UNO board) micro control works as control unit in feedback mechanism.
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