Recently, there is growing interest in achieving better sleep quality. Therefore, this research is investigating appropriate stimuli in response to sleep depth, and suggests an interface to improve the quality of sleep. We have developed an application that reports sleep depth by using a smartphone to detect the body motion of the user during sleep. This app sends the measured data to a PC. Moreover, the app provides light and sound stimuli in line with the measured sleep depth and suggests a pillow-type device that may improve the quality of sleep.
In recent year, related to individual training of soccer, an attempt to take advantage of accelerometer etc. on researches and micoach which can tune your technique and kick like a pro with instant feedback on power, spin, strike and trajectory are increasing. The author pay attention to free kick’s simulation, the physical system of free kick’s simulation was conceived.
Xu HAN, Kumiko KUSHIYAMA, A concept about a physical system of free kick’s simulation, 2nd ADADA Japan 2015, 25th August, 2015 [PDF]
Today, there are many types of digital toys available for children. Actuated toys, such as remote-controlled cars, are getting more intelligent and smart: we can now control these kinds of toys with smartphone applications. On the other hand, such controllers are sometimes difficult for children to control. Thus we propose an easy way to control a motorized car by using simple sounds. Once a user rings a bell, it makes a duck toy move towards the direction of a user. Our duck toy has two capacitor condenser microphones to detect the location of a sound source. Then, through frequency analysis, it detects the pitch of a sound. As a result, a user can enjoy being like a mother duck.
Nagisa Niwata, Tetsuaki BABA, A Sound-Controlled Duck Toy: a Challenge to Apply Sound Source to Controller for Children’s toys, ID:198, Art Paper, 12th International Conference for Asia Digital Art and Design,15-16 November, 2014 [PDF]
Yuya (Doctoral course) and Takaharu (Alumni) launched a startup company.
The company name is No New Folk. They are now under the DMM Akihabara group. Their first product is “Orphe”, which is a smart-shoes system designed for performance that functions both as a customizable lighting system and a musical instrument/audio-visual controller.
They have already succeeded to be funded on Indigogo.
Orphe is a smart-shoes system designed for performance that functions both as a customizable lighting system and a musical instrument/audio-visual controller. The sole of each shoe contains advanced motion sensors, around 100 full-color, serially-controlled LEDs, and a wireless module (patent pending). This technology allows users to intuitively express themselves in new and interesting ways by freely mapping interactions between their movements and light and sound. We also provide a system that makes it easy for users to share the assets they’ve created online, and we hope to grow a community of artists and performers working in different media and genres who can take inspiration from each other’s use of Orphe hardware and applications.
NAKANISYNTH is a synthesizer application that allows users to produce sound loops by freehand drawing sound waves and envelope curves. Since the only input required involves drawing two waveforms, users can easily produce various sounds intuitively without complex manipulation. This application has a keyboard where users can edit waveforms and make sounds simultaneously. Therefore, it is easy for the user to understand the relationship between a waveform and the sound it produces.
Kyosuke NAKANISHI, Tsubasa YOHA, Paul HAIMES, Tetsuaki BABA, Kumiko KUSHIYAMA, NAKANISYNTH: A Freehand Drawing Waveform Synthesizer, ID:110, Art Paper, 12th International Conference for Asia Digital Art and Design,15-16 November, 2014 [PDF]
Paul is currently working on a research project here at Tokyo Metropolitan University’s System Design faculty looking at how to make information on natural hazards (such as earthquakes, active volcanoes and typhoons) in Japan more accessible and usable. It’s very early stages but the plan is to build a smart phone app. We’ve recently launched a mini-site for the project at hazards.jp. This research will build on some of the findings from Paul’s PhD and the MyFireWatch project.