561 research outputs found
Arduino for chemical engineering students via game-based learning
Thispaper presents author experience in teachingArduino forchemical engineering studentsusingthe game-based learningteaching methodology. Learning outcomes associated to the work included attainment of necessary technical skills related to Arduino and development of essential attributes especially team-working, communication and problem-solving through the proposed game-based learning method. The mechanic of the game proposed is based on the snake-and-ladder board game where students need to complete series of tasks using a customized Arduino learning kits to complete the game. Rubrics were formed to evaluate student’s competency and achievements on the tasks given.Compared to the teacher-centered method, an increased in student performance by at least 40-50% was achieved. The learning structure of the game were formulated to achieve different level of cognitive skills namely comprehension, apply and analysis and therefore, allowed them to meet the learning outcomes. Majority of the students agreed that the game-based learning method conducted has successfully created an enjoyable learning environment and excite their interest on Arduino wherenearly 70% of the respondents believed that the game had made them acquired the lifelong learning and team-working skills
Arduino printer.
Arduino Printer Bachelor thesis „Arduino printer“, author Danielius Sivinskis. This project contains narrow instructions on how printer was built and programmed using Arduino language. Step-by-step instructions on how the structure was made. Explaining every component, it‘s purpose and why it was chosen specifically. The goal of this work was to make working printer which could print any image, selected by the user. To sum it up, we have a finished physical printer with it‘s advantages and disadvantages which can print images, uploaded right into program code
RUKYATUL HILAL INSTRUMENT DESIGN BASED ON ARDUINO
Arduino is a Microcontroller platform consisting of a computer chip that is used to control electronic equipment that is flexible and easy to use. In this modern era, the implementation of Rukyatul Hilal can be done using instruments such as Hilal locater, telescope and theodolite. However, these tools are quite expensive and have a fairly heavy load and require long time to prepare. Therefore, this research provides breakthroughs and new innovations in designing the Rukyatul Hilal Instrument based on Arduino. The research uses the Research and Development model type of research, the development model that the researcher will do is to develop an Arduino Microcontroller so that it can be used as a Rukyatul Hilal Instrument. Based on 4 observations of the Moon, The Arduino-based Rukyatul Hilal instrument can successfully show the position of the Moon and verify the data used by the author is correct and the author can also photograph the image of the Moon clearly using a smartphone. However, it should be noted that the position of the Moon when viewed from the Arduino-based Rukyatul Hilal Instrument telescope is not in the middle of the telescope, but sometimes at the bottom, side and top
A compact low-cost XY360° stage: using Arduino and PWM based amplifiers
The application of actively controlled micrometer precision positioning stages in products that are accessible to start-ups, individual consumers or third world countries is currently limited by their price and size. To solve this problem, the use of low-cost and compact components in stages is investigated. Earlier research done in the MSD group already showed that relatively low-cost sensor concepts and mechanical designs can be applied to significantly reduce the price of stages, while still achieving sub-micrometer precision. In this research, the applicability of the Arduino Due micro-controller (€40) and amplifiers based on Pulse Width Modulation (PWM, €6) in precision stages is investigated. The use ofcheap components doesn’t come without its drawbacks. To name a few examples, the Analog-to-Digital Converter (ADC) in the Arduino doesn’t have the resolution of higher quality components, PWM adds frequency content to the output of the amplifier and the Arduino processor isn’t as fast. In this research project, an extensive theoretical analysis is done to reveal how the components affect the overall performance of the stage, which can then be used to optimize system parameters to circumvent the performance losses that are inevitable with cheap components. This way much of the overall system performance canbe maintained. The theory is experimentally validated and the Arduino and PWM based amplifiers are successfully implemented into a working prototype with a precision of 1.5μm.Mechanical Engineering | Mechatronic System Design (MSD
RANCANG BANGUN BANTAL TERAPI BERBASIS ARDUINO
One form of physiotherapy is utilizing heat for recovery. Heat therapy can open blood vessels wider, thereby increasing blood flow and supply of oxygen and nutrients to reduce pain in joints, muscles, ligaments and injured tanks. To help health services in the field of physiotherapy the author modifies the therapeutic pillow with Arduino Uno and DS18B20 based as a temperature sensor, LCD as a temperature viewer and a timer and button that functions to choose how long it takes to do therapy. The design of therapeutic pillows is divided into two, namely hardware and software design, hardware design including power supply, a series of drivers and system scenarios. While the software design of this tool uses the Arduino and proteus applications as software. The result of the percentage error at the TP2 measurement is 0.02%. The measurement results on TP3 when the tool is off or off, then the circuit does not get a voltage while when the device is turned on or on the driver circuit gets a voltage of 1.4 Volt. After making the process of making, testing, testing tools and data collection, the author has succeeded in designing a heat therapy pillow using a temperature sensor and ARDUINO UNO based timer controller that can provide convenience when going to heat therapy because it is equipped with an automatically controlled temperature sensor and controller timer. by DS1820 temperature sensor. A therapeutic pillow based on Arduino with 10 minutes of therapy results in a temperature of 41 °C.
Arduino Source Files for the ISCI2A18 Enrichment Project "Using the Arduino Platform to Teach Neuroscience Students Information Processing and Scientific Models in the Context of the Visual System"
These files are programs that can be uploaded to Arduino Microcontrollers through a USB cable by the Arduino IDE. The circuits required to use these programs are fully described in the Nickolas Goncharenko's second year Enrichment Project: Using the Arduino Platform to Teach Neuroscience Students Information Processing and Scientific Models in the Context of the Visual System. For access to these documents, please email the author: Nickolas Goncharenko at [email protected]
Binnen 2 uur een dochterflitser: Practicum met de Arduino
Een practicum met de Arduino voor bachelor studenten van de faculteit Industrieel.Industrial DesignIndustrial Design Engineerin
Perancangan Alat Pelipat Baju Otomatis Berbasis Arduino Uno
Past research has made clothes folding devices automatically by utilizing the development of
knowledge about electronic technology, namely using the Push Button as a system input and
Arduino Uno microcontroller for data communication processes. In this final project, the author
continues to tidy up clothes by using ultrasonic sensors instead of switches, arduino uno
microcontroller for data communication processes, and utilizing servo motors as movers for
clothes folding boards, so that the average time in folding clothes is 4.8 seconds
IR senzor: Arduino i Python merenja
Lab. assignment No. 8 for Measurement computing devices course at the University of Belgrade - School of Electrical Engineering (http://automatika.etf.rs/sr/13e053msr) in 2018.
Author would like to thank BSc students - demonstrators Uroš Kukić and Dušan Prokić for their valuable feedback for assignment's improvements.This lab. assignment has Arduino and Python code
Rancang Bangun Prototipe Atap Otomatis Berbasis Arduino
Changes in weather conditions (dry weather and unpredictable rainy weather) will affect work activities and effectiveness, for example, drying clothes. Some households are concerned with the drying process, especially in the laundry service business. often using a clothes dryer will cause a waste of electrical energy used, especially for laundry services. The way to overcome this problem is to make a tool, namely an automatic roof, so it doesn’t have to be difficult to lift the clothesline if it suddenly rains or when you are outside house because it uses a rain sensor. The author has made a prototype of an Arduino-based automatic roof which intends to help the community in drying clothes automatically. This tool will read the water attached to the rain sensor. The sensor will respond to the fall of water and then the sensor results will be sent to Arduino. The results are sent to Arduino and then processed by the microcontroller, the roof will automatically be covered by the servo motor drive. The author also measures Voltage, Current and Power generated by this prototype using a multimeter and sensors. Current. The results obtained from this prototype measurement using a rain sensor, namely Voltage 5V, Current 190 mA and power 950 mW. Then the condition of moving to close obtained a voltage of 4.7V, current of 447 mA and power of 2109 mW
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