The FOSMC motorcycle was conceived, designed, and constructed in less than 3 months. With a goal to create modular, easily assembled components using standard prototyping technologies, the bike also works with Amazon Web Service's innovative new IoT platform. Check out the connected platform features, including engine temperature, lean angle, and acceleration tracking at the FOSMC IoT dashboard page.
Check out the miniaturized tinyTILE* development board in its world debut at the Electronica trade conference in Germany. The tinyTILE platform is built on the Intel® Curie™ module and equipped with motion sensors, Bluetooth® Low Energy, and pattern matching capabilities for optimized analysis of sensor data. This unique device is ideal for “always-on” wearable applications that require motion monitoring, wireless capabilities, low power, and small size.
Go from innovative prototype to product realization faster than ever with the high performance and sophistication of the Intel® Joule™ Developer Kit. Access human-like vision capabilities with integrated Intel® RealSense™ Technology, simplify product development with a streamlined software and hardware ecosystem, and reduce costs with a tiny, energy-efficient module. You’ll be able to create the new and disruptive products of your dreams—from autonomous robots to intelligent drones to portable augmented reality devices. It’s power to invent in a whole new way.
The open software developer kit for the Intel Curie module includes all the tools needed to develop software and firmware for Intel Curie-based devices: Arduino* core class libraries from the Arduino/Genuino 101* product, optimized compilers for ARC* and IA32 (Intel® Quark™ SE), debug GDB with JTAG OpenOCD, Developer Flashpack, and bin utilities.
Intel and partner Chromat, the highly architectural design house known for dressing pop stars like Beyoncé and Nicki Minaj, made a huge splash at New York Fashion Week 2015. This unique partnership produced the “Adrenaline Dress,” a garment that reveals superhero-like wings as a wearer experiences spikes in adrenaline. The dress is designed using the Intel® Curie™ module, a complete low-power solution that fits into a button. The Intel and Chromat collaboration is an example of an increasing influence of technology in the fashion world.
See how fashion designer Anouk Wipprecht embeds Intel® Edison technology into her revolutionary couture with 3D-printed, Maker-inspired clothing that can sense, transmit and interact.
Travel to Dockercon 2016 and discover how Dronesmith incorporates Intel® technology to control a drone flight management unit (FMU). See a demo of the two devices communicating over the MAVlink* protocol, with thermal camera control, gyroscope data streaming, and web interface running on the Intel® Edison module.
The Simple Beer Service* (SBS) is a cloud-connected kegerator that collects and sends sensor data, including beer flow, temperature, humidity, sound levels, and proximity. The SBS service delivers visualizations through an IoT platform giving users access to near real-time data collected by the Intel® Edison module.
Cubilog has designed an end-to-end, plug-and-play home automation platform for smart and non-smart devices using the Intel® Edison module. This innovative solution brings IoT products to market quickly and effectively with compact size, high-performance, and connectivity.
Smart wearables startup KINETIC incorporates Intel® Edison technology to create a device that can significantly reduce lifting injuries using belt-mounted sensors to analyze ergonomics and provide intelligible analytics.
Samsara combines hardware and software with the cloud to create an Internet-connected sensor framework capable of analyzing data for all customer types in an easy-to-install wireless system.
PLEN Project announces online preorders for the PLEN 2 Mirror Robot* and opens the official PLEN user community website offering open source data, forums, and access to Motion Editor and Scenography software for PLEN series robots.
Discover the Reach RTK GPS Receiver* with Intel® Edison technology, designed for unmanned vehicles. It provides precise accuracy using built-in gyroscopes, Wi-Fi, and Bluetooth* for a powerful, compact, and affordable receiver.
Intel and CSIRO, Australia’s national science agency, will use the Intel® Edison board and tiny radio frequency identification (RFID) tags inside beehives to monitor hive activity as part of the Global Initiative for Honey Bee Health.
The BOOMcast is programmed to deliver medical information to North’s doctor, play music from his phone, map pressure and audio data into LED lights that convey information for North’s edification, and more.
Innovator Stephanie Moyerman, uses Intel® Edison technology to create a motorcycle helmet that can transmit data between rider and bike.
Health and fitness was Intel's focus at the Wearable Technology show. The Intel® Edison development board allows experts to work on a 3D-printed "SmartSplint".
Explore your world with the Google Science Journal* app, a digital notebook for Android* devices that empowers users to collect data and measure the environment. Observe the elements with accelerometers, microphones, and other external sensors that measure light, temperature, sound, and more. Conduct experiments with the Google Science Journal app to collect, graph, and compare data in real-time using the Arduino 101* module powered by Intel® Curie™ technology, or connect additional compatible sensors to your Android for even more possibility.
Fifteen-year-old Oregonian Shahir Rahman wanted to help his father make the perfect cup of tea, so he used his advanced programming and math skills with the Intel® Edison module to transform a conventional microwave into a smart kitchen appliance that can sense when food and drinks reach their ideal temperature.
The 2016 China – U.S. Young Maker Competition challenges innovators to co-make the future and create projects that address social issues with cutting-edge technology. The Young Maker Competition opens April 25 with entries due by June 24 and finalists announced July 11. Ten U.S. finalists will receive an all-expense paid trip to Beijing, China to compete against fellow Makers for a grand prize of USD 15,000 and become the ultimate, global Maker.
Maker Faire Bay Area 2016 was a huge success with more than 100,000 people enjoying three days of this part science fair, part county fair, and part something entirely new event. The Intel village featured eleven demos including drones, bots, drum machines, contestants from America's Greatest Makers, and more.
Makers, developers, and engineers wanted. Intel, Turner Broadcasting, Mark Burnett—the producer of “Shark Tank” and “Survivor"—and United Artists Media Group are casting their newest television series: “America’s Greatest Makers”. Submit your ideas and if you are selected, Intel engineers will use the Intel® Curie™ module to help you turn your ideas into the next big wearable or smart-connected device. The winner walks away with $1 million. For your chance to be on America's Greatest Makers, submit a video to tell us a little about yourself and your idea, and why you want to be part of the challenge.
The desire to make is universal. And as with everything else, making has transformed with technology. Garages, workshops, and classrooms are no longer for the hobbyist—they are the canvas to create what we need. And yes, what we think is cool. It’s disruptive. It’s innovative. It’s fun. Where does Intel’s long-standing passion for innovation think this movement is going? Join Genevieve Bell, Intel Fellow and Vice President (Corporate Strategy Office) and renowned anthropologist for a conversation that is developed by you—the Maker.
Thud Rumble ditched their laptops and ran their DJ and virtual synthesizer software on the Intel® Edison platform. Their proof-of-concept display demonstrated that the system could also connect to MIDI* keyboard controllers, turntables, time-coded records, and touch screen displays.
See footage from the convention where the radio-controlled cars battled using infrared blasters to score points. Based on the Intel® Edison platform, these robots have cameras mounted on the blaster to offer a first-person perspective while the omniwheel design enables easy steering in any direction.
Powered by the Intel® Edison microcontroller and an SRAM E-Matic* electric assist hub, this bike features integrated turn signals and brake lights, a handlebars that transform into a U-lock to fully secure the wheels and frame, and more.