Wireless motion sensor for 3D data acquisition via Bluetooth technology. Product. Vidonn smart bracelet is a wearable smart devices, containing three-dimensional motion sensor, vibration motors.Users can record real-time exercise and slepping data etc everyday with bracelet.The wristband can be synchronized with a Bluetooth wireless smartphone or PC, to guide healthy living lifestyle.
Users can know their sleeping and sporting data through to check phone application, also sharing the data, of course can add friends to interact. Users can get motion data points which used for PK with friends, exchange gifts and lottery to make much fun and entertainment. Why do I need a sport bracelet? ● "Running our health just like as running his own business, we fight with our own inertia and bad habits all the time" . ● Or only remember the words: " Your exercise is the ultimate existence meaning of these devices no matter which device you use. " ● Perhaps only through a small device to track sleeping and sports data then to know how lazy and bad sleep with himself. ArduIMU V4 - An Arduino Based Integrated Measurement Unit by Ahmad Byagowi. Hi Kickstarters! We are introducing the ArduIMU V4, a complete wireless sensor module that supports the Arduino™ framework. It is a fully capable wireless Integrated Measurement Unit (IMU). Initially, the ArduIMU project was started as an open source project by 3DRobotics in 2007 to create an inertial measurement unit based on the Arduino™.
We contributed to the software development of that project, but, the initial ArduIMU was meant to be used solely as an inertial measurement unit. We want to do better than that; so we developed a brand new platform with other sensors such as a barometer, relative humidity sensor, and light sensor. Our team squeezed a huge amount of functionality and sensors into a tiny form factor: π cm x π cm (a 3.14 cm x 3.14 cm square PCB). Several people from the open source community have joined in and helped us develop the hardware and the software for the ArduIMU V4.
The ArduIMU V4 is based on an ATmega128RFA1 and is 100% compatible with the Arduino Framework. Gear. Tizen SDK for Wearable 1.0.0 b3 Sep 03, 2014 Samsung Accessory SDK 2.1.8 b For developing Samsung Gear Application, you need both of the Tizen SDK for Wearable and Samsung Accessory SDK. You can find more details on how to develop Gear Application in the 'Hello Accessory Developer's Guide' document below.
Samsung Gear Application consists of the Host-side Application which runs on Android-based Samsung mobile devices, and the Wearable-side Widget which runs on Tizen-based Samsung Gear devices. The Host-side Application can be developed in the common Android development environment, whereas, the Wearable-side Widget can be developed with Tizen SDK for Wearable. In addition, Samsung Accessory SDK, is the necessary component for communicating between the Host-side Application and Wearable-side Widget. What Can I do with SDKs for Samsung Gear S?
Enhanced Standalone Features Develop enhanced standalone Gear app with enhanced network, call and Location-based APIs. Technical Resources Tutorial Video. Wireless Inertial Measurement Units | APDM Inc. The most affordable of APDM’s inertial monitors, Sapphires are designed for applications that require durability for long-term recordings during normal daily activities. Learn More >> Emeralds have all of the same features and monitors as Sapphires plus wireless synchronization between multiple devices. Learn more >> Opals are the most fully featured inertial monitor and can be used for either continuous monitoring of synchronized devices or in applications that require real-time data streaming to a computer. Our wearable movement monitors are about the size of a watch. In the medical field, these IMUs are ideal for monitoring human movement for clinical research, biomechanical research, physical therapy research, movement disorders research, and athletic tuning.
We provide three different movement monitors. Download sensor whitepaper for more information, please contact us. Wearable Sensors: Fundamentals, Implementation and Applications. DeviceOrientation Event Specification. Abstract This specification defines several new DOM events that provide information about the physical orientation and motion of a hosting device. Status of This Document This section describes the status of this document at the time of its publication. Other documents may supersede this document. A list of current W3C publications and the latest revision of this technical report can be found in the W3C technical reports index at This document was published by the Geolocation Working Group as a Last Call Working Draft. All feedback is welcome. Publication as a Working Draft does not imply endorsement by the W3C Membership. This document was produced by a group operating under the 5 February 2004 W3C Patent Policy.
Table of Contents 1 Conformance requirements All diagrams, examples, and notes in this specification are non-normative, as are all sections explicitly marked non-normative. 2 Introduction This section is non-normative. Registering to receive devicemotion events: Software Development Kit. The Motion Software Development Kit (SDK) is a collection of classes that provides real-time access to the outputs of the Motion Service. This includes orientation output as well as the raw and calibrated accelerometer, gyroscope, and magnetometer sensor signals. The SDK is open source and available in the C++, C#, Java, and Python programming languages.
The Motion Service publishes data over network sockets. The SDK includes classes to handle the transport of messages and to unpack the messages into language native containers. The SDK is not required to access data from Motion inertial tracking system. It is intended to simplify development of third-party applications. For more information, refer to the SDK Reference document. Download Source Repository C Application Programming Interface (API) The Motion C API depends on the SDK for its communication and formatting systems. The C API also provides convenient data access from programming languages not directly supported by the SDK. Wockets - WirelessMonitors. Meet Moov: your personal coach. La raquette qui va révolutionner le tennis - Ilosport. Bien s'équiper À l’ère des smartphones et du tout connecté, Babolat va bientôt lancer la première raquette de tennis intelligente : la Babolat Play Pure Drive. Une raquette qui risque de métamorphoser l’univers de la petite balle jaune.
Babolat Une raquette de tennis Bluetooth ? Cette idée peut paraître complètement loufoque et pourtant. Une technologie qui va « changer la façon de comprendre le jeu » Équipée d’un accéléromètre, d’un gyroscope, d’un microprocesseur, la Babolat Play Pure Drive capte chaque frappe de balle et collecte des données précises qui vous permettront de faire un bilan de vos performances après votre entraînement ou votre match. « L’idée est née il y a déjà 10 ans mais la technologie n’était pas encore au point.
L’ITF va s’adapter aux nouvelles technologies Revers, coup droit, smash, vitesse de frappe, service, endroit d’impact de la balle, niveau de spin ou encore durée de jeu effectif, aucune donnée ne vous échappera. Par Frédéric Yang Bien choisir sa raquette. Zepp | Analyze & Improve Your Baseball, Golf & Tennis Game. This Wearable Will Improve Your Golf Game. The Zepp golf sensor was made to analyze and improve your golf game. Since my swing leaves a lot to be desired, I consider myself the perfect candidate to give the connected golf tool a shot.
My golf habit began in high school, when I joined the school's team as a substitute for the required physical education class. Thanks to golf lessons one summer, an instructor convinced me to actually watch my ball land and roll to a stop at the driving range, rather than immediately teeing up the next shot out of pure humiliation. Regular feedback from a professional was the one thing that got me comfortably hitting shots I was proud of, but by the end of my senior season, my golfing had deteriorated to the point where I scored dead last at the league's final tournament. Lucky for me, golf instruction now comes in a smaller, more affordable box. The golf sensor made by Zepp clips onto your golf glove and syncs with the Zepp golf app via Bluetooth. Image: @danifankhauser on Instagram The Good The Bad. Shot Stats Challenger - Make Your Tennis Racket Smart by Lavie Sak. We've spent the last 4 months in Shenzhen, China attending HAXLR8R, the top hardware accelerator in the world.
During that time we worked with excellent mentors, advisors, and engineers, not to mention a slew of other startups full of passionate and motivated people. We forged a lot of new connections with potential factories and suppliers and developed a couple of new prototypes. We’re currently working hard to develop the software and firmware that will drive Challenger.
Our hardware is also undergoing development to ensure that it’s light, strong, and durable. Despite its small size, Challenger packs a lot of processing power, and getting all of this down to a small size is quite a challenge (no pun intended!). We've been working extremely hard to bring you the best product possible and are now at a critical point. Helping to make tennis a part of the digital sports evolution.Signing up to be one of the first to use Challenger! Your pledges will go directly towards: