Proyectos

Algunos proyectos que involucran smartphones, sensores, electrónica, etc. siempre orientados hacia la ciencia:


MAGNA AR: Visualize the Invisible (Colleen Megowan Romanowicz, Chrystian Vieyra, Mina Johnson, Rebecca Vieyra)
A tool for teaching and learning about magnetic fields with augmented reality
https://www.magna-ar.net/

Mobile Device Models (Wolfgang Christian, Colleen Countryman, Francisco Esquembre):
http://www.compadre.org/books/MobileModels

Activités expérimentales de physique avec smartphone au lycée (Julien Bobroff, Frédéric Bouquet)
http://hebergement.u-psud.fr/supraconductivite/projet/tp_smartphone_en_lycee/

Lab4U (Komal Dadlani, María José Carreño, Álvaro Peralta):
https://lab4u.co/

PhyPhox (Sebastian Staaks):
http://phyphox.org/

PhoneLabs Manual: Hands-on Phones-on Experiencial Learning (Sivam Krish & Robert Fitzgerald):
http://www.phonelabs.net/manual/PhonelabsManual.pdf

Physics and Google's Project Tango (Rebecca Vieyra & Chrystian Vieyra)
http://www.vieyrasoftware.net/#!Blog-Post-6/c38o/56ca5ead0cf2c75daa89a735

Physics Toolbox Apps by Vieyra Software (Rebecca Vieyra & Chrystian Vieyra)
http://www.vieyrasoftware.net/

MOOC Smartphone Pocket Lab: Experimental Classical Mechanics (Joel Chevrier)
https://www.france-universite-numerique-mooc.fr/courses/parisdescartes/70003/session01/about

FUN MOOC Université de Bordeaux: Physique des objets du quotidien : du four à micro-ondes au smartphone (Ulysse Delabre)
https://www.fun-mooc.fr/courses/course-v1:ubordeaux+28003+session03/about

Smartphonique (Ulysse Delabre)
https://smartphonique.fr

Grupo TIA Universidad de Valladolid (Miguel Ángel González Rebollo, Manuel Ángel González Delgado):
http://apprendiendofisica.blogspot.com.es/

A smartphone-based laser distance sensor for outdoor environments (Jason H. Gao and Li-Shiuan Peh)
https://projects.csail.mit.edu/wiki/pub/LSPgroup/PublicationList/PhoneLidarICRA2016.pdf

KickStarter: Make!Sense: A Universal Interface For Learning (Stephen H Lewis)
https://www.kickstarter.com/projects/1978340629/makesense-a-universal-interface-for-learning

Karbonn Android One Sparkle: Un smartphone de la India con Android 4.4 que cuenta con varios sensores, entre ellos aceleración y giro, que cuesta solo u$s 100.
http://karbonnmobiles.com/products/smart-phones.html?view=detail&id=76

Your Smartphone Can Do Physics: Physics Central Blog
http://physicsbuzz.physicscentral.com/2015/01/your-smartphone-can-do-physics.html

Cool Physics with a Smart Phone: Sonic Gate to measure time intervals
http://www.instructables.com/id/Cool-Physics-with-a-Smart-Phone/

AudiA: laboratorio móvil low-cost para el estudio del sonido (Universidad de Valladolid):
https://app.box.com/s/qoee1p3nlmax7256vr72

RadioactivityCounter for mobile phones.
http://www.rdklein.de/html/radioactivity.html
http://news.uci.edu/press-releases/smartphone-network-could-track-incoming-cosmic-rays-uci-led-research-finds/

MOOC experimental Classical Mechanics with Smartphones (introduction)
https://sites.google.com/site/iprofmeca/


PROYECTOS DE CIENCIA CIUDADANA (Redes globales de sensores):

Cosmic Watch
Cosmich Watch is simple, physics-motivated machine- and electronics-shop project for university students and schools. Our detector is a self-contained apparatus that employs plastic scintillator as a detection medium and a silicon photomultiplier for light collection. These detectors can be battery powered and used in conjunction with the provided software to make interesting physics measurements. The total cost of each counter is approximately $100.
http://www.cosmicwatch.lns.mit.edu/

Ver notas en pestaña "Arduino".



iSPEX: Monitoreo atmosférico con smartphones
http://ispex-eu.org/







Mapa global de calidad de agua:
Sitio oficial: http://mwater.co/
App: https://play.google.com/store/apps/details?id=co.mwater.clientapp
http://www.nasa.gov/mission_pages/station/research/news/mWater/#.VGSsbvmG98H
Mapa: http://map.mwater.co/

Proyecto CRAYFIS (Cosmic Rays Found in Smartphones)
http://crayfis.ps.uci.edu/about.html



DECO: Distributed Electronic Cosmic-Ray Observatory
WIPAC (Wisconsin Ice Cuve Particle Astrophysics Center)
Sitio oficial: http://wipac.wisc.edu/deco
Guía de uso: http://wipac.wisc.edu/static/docs/deco_v2.pdf



Diapos: https://docs.google.com/presentation/d/1Cta0J02M5QXixvcnluXvFMoqHEIj0EqXw3_JrF1Y6WU/edit#slide=id.g207696ff_0_0
The Global Sensor Web: A Platform for Citizen Science
(Diapos): https://docs.google.com/presentation/d/1kft2Jle7Qirmb3vw1KIlJm7Ka01KOe_NtWYEJCk_kLM/edit#slide=id.i0
Poster: http://scienceland.wikispaces.com/file/view/DECOSummer2013.pdf/464271142/DECOSummer2013.pdf
Poster: http://scienceland.wikispaces.com/file/view/VeronicaHoyoPosterFinal.pdf
http://www.sensorcast.org/wiki/index.php/DECO
http://wipac.wisc.edu/learn
http://www.news.wisc.edu/23166
https://wildwoodclassaction.wordpress.com/2012/02/09/httpwww-aps-org/
http://www.aps.org/programs/outreach/grants/2012grantees.cfm



Marcándole al Cosmos. Nota en IOP Latinoamérica sobre DECO y CRAYFIS:
http://latinoamerica.iop.org/cws/article/news/59799