الصفحة 1
الصفحة 1
IOT glass tempering controller
The Internet of things (IoT) subject speaks to a thought for the electronic-mechanical arrangement of devices to detect and gather data from the encompassing environmental factors and a short time later share that data over the Internet where it will, in general, be arranged and utilized for various purposes. This project will show the use of Iot in the process of Harding glass to accomplish a well-tempered glass and solving the problem of arching glass which is caused because of the difference of the temperature in the upper and lower heat, Iot will help in monitoring and controlling the temperature through blynk program.
Interactive drink machine company - (IDM company)
This project is a continuation of our previous project for a hot drink machine by adding the capability for electronic payment and developing the company's management system and making the hot drink machine linkable with the company's server via the Internet and more interactive with the customer through the development of this project according to several aspects. On the software level: An integrated system that allows recording customer requests and executed operations, in addition to information about users, including their personal information, current balance, and executed requests. On the level of employees, their personal information, their work tasks and the operations carried out by them (Receipt and delivery of materials and servicing of machines).
Intel® Galileo and Intel® Galileo Gen 2 : API Features and Arduino Projects for Linux Programmers
ntel® Galileo and Intel® Galileo Gen 2: API Features and Arduino Projects for Linux Programmers provides detailed information about Intel® Galileo and Intel® Galileo Gen 2 boards for all software developers interested in Arduino and the Linux platform. The book covers the new Arduino APIs and is an introduction for developers on natively using Linux.
Embedded robotics : From mobile robots to autonomous vehicles with Raspberry Pi and Arduino
Presents a unique examination of mobile robots and autonomous vehicles using embedded systems, from introductory to advanced level. It is structured in four parts, dealing with Embedded Systems (processors, sensors, actuators, control, multitasking and communication), Robot Hardware (driving and walking robots, autonomous boats and planes, as well as robot manipulators), Robot Software (localization, navigation, image processing and automotive systems), and Artificial Intelligence (neural networks, genetic algorithms and deep learning). The book is organized for ease of use, with numerous figures, photographs, and worked example programs. The book is written as a text for courses in computer science, computer engineering, IT, electronics engineering, and mechatronics, as well as a guide for robot hobbyists and researchers.
Designing a programming education system for children to program and simulate robots
JuniorCoders is an innovative educational platform designed to introduce programming and robotics concepts to kids and beginners. It provides an easy-to-use visual programming interface that allows users to create Arduino programs by dragging and dropping blocks of code. The system aims to make programming accessible and shareable, allowing them to create complex programs without having to learn a traditional programming language. Enables users to program and simulate robots using Arduino boards.
Bluetooth based indoor location positioning system for mobile robot navigation
Positioning objects has been an important topic since it’s needed to locate people, guide them to a certain place, and assist companies and organizations with their assets management. Great applicational opportunities emerge based on the inquiry of Received Signal Strength Indicator (RSSI). In this research, a positioning system using Bluetooth RSSI is proposed for indoor applications. First, RSSI values are inquired multiple times and the average is taken at multiple points of different distances from the transmitters. Then the distance is determined by the variations of RSSI values respectively to distance variations. Finally, a triangulation algorithm is used to calculate the current location of the receiver.
(IOT) Based street light, energy saving control system
Energy efficiency simply means using less energy to perform the same task. That is, to eliminate energy waste. Reducing energy use limits the number of carbon emissions in the environment, in turn, conserving energy produces a higher quality of life, helping create a healthier planet, or at least helping sustain the resources we already have; and if not now, then when? Hence, the main purpose of our project was to design and implement an energy saving street lights’ system, remotely controlling the lights so they consume the least amounts of energy possible using the modern technology; internet of things.
