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Daniel Weber, Auteur ; Michaelangelo Rodriguez, Auteur | 2019"Gone are the days when networking embedded devices was a big deal. And today, such devices can be linked in powerful mesh networks over wireless protocols. In this article, learn how these two Cornell students used Microchip PIC32 MCUs and Espressif’s ESP8266 Wi-Fi module to create a mesh network ...Article : texte imprimé
Katie Bradford, Auteur ; Michael Xiao, Auteur | 2019"The emergence of culinary robotics and automation has already begun to revolutionize the way we prepare our meals. In this article, learn how these two Cornell undergraduates designed an advanced toaster that's able to toast any pattern - image, text or even today's weather - onto a piece of bread. ...Article : texte imprimé
David Valley, Auteur ; Saelig Khattar, Auteur | 2019"With today's technology, even simple microcontroller-based devices can fetch and display data from the Internet. Learn how these two Cornelle students built a system that can track stock prices in real time and display them conveniently on an LCD screen. For the design, they used an Espressif Systems ESP8266 ...Article : texte imprimé
Daniel Fayad, Auteur ; Justin Choi, Auteur ; Harrison Hyundong Chang, Auteur | 2019"Simulating human body motion is a key concept in robotics development. With that in minde, learn how these three Cornelle graduates accurately simulate the movement of a human arm on a small-sized robotic arm. The Microchip PIC32 MCU-based system enables the motion-controlled, 3-DoF robotic arm to take a user's ...Article : texte imprimé
Radhika Chinni, Auteur ; Brandon Quinlan, Auteur ; Raymond Xu, Auteur | 2019"In this project article, learn how these three Cornell students built a miniature recording studio using the Microchip PIC32. It can be used as an electric keyboard with the additional functionality of recordng and playing back multiple layers of sounds. There is also a microphone that can be used ...Article : texte imprimé
Jake Podell, Auteur ; Jonah Wexler, Auteur | 2019"While music-playing video games are fun, their user interfaces tend to leave a lot to be desired. Learn how these two Cornell students designed and built a musical video game that's interfaced using a custom-built wireless guitar controller. The game is run on a Microchip PIC32 MCU and has ...Article : texte imprimé
Vidya Ramesh, Auteur ; Vaidehi Garg, Auteur | 2019"Microchip's PIC32 MCU has proven effective for myriad applications, so why not a dog collar ? Learn how these Cornell graduates built a GPS-enabled pet collar prototype. This article discusses the hardware peripherals used in the project, the setup and the software. It also describes the motivation behind the project, ...Article : texte imprimé
Norman Chen, Auteur ; Ram Vellanki, Auteur ; Giacomo Di Liberto, Auteur | 2018"Discover how these Cornell students built an Internet-connected door security system with wireless monitoring and control through web and mobile applications. The article discusses the interfacing of a Microchip PIC32 MCU with the Internet, and the application of IoT to a door security system." (Extrait de Circuit Cellar ...Article : texte imprimé
Rohit Jha, Auteur ; Erissa Irani, Auteur ; Amanda Pustis, Auteur | 2018"Poor posture is a widespread problem in this day and age. Learn how these Cornell students built a posture corrector that helps remind you to sit up straight. Using vibration and visual cues, this wearable device is paired with a phone app and makes use of Bluetooth and microchip ...Article : texte imprimé
Peter Slater, Auteur ; Mark Lee, Auteur | 2017"This pair of Cornell graduates designed and constructed a robotic candy sorter. The design exemplifies the value of partitioning an embedded system project into separate low-level and high-level subsystems." (Extrait de Circuit Cellar n°329)