Thu 26th May 2011 | News
The SIGGRAPH Emerging Technologies program has released video and the highlights of the latest developments in technology, including haptics, displays, robotics, and artificial intelligence.
From over 100 submissions, this year will feature 23 of the latest innovations selected by a jury of industry experts.
Topics range from displays and input devices to collaborative environments.
"The SIGGRAPH Emerging Technologies program is unique in its interactive approach that allows people to experience the most cutting-edge developments first-hand,” said Cole Krumbholz, SIGGRAPH 2011 Emerging Technologies Chair and co-founder of Koduco Games. “This year, conference attendees will experience the latest achievements from industry and university research labs.”
Hiroaki Tobita and Shigeaki Maruyama; Sony Computer Science Laboratories, Inc.
This floating avatar system integrates a blimp with a virtual avatar to create a unique system of telepresence. The blimp avatar contains several pieces of equipment, including a projector and a speaker as the output functions. Users communicate with others by presenting their facial images through the projector and voices through the speaker. A camera and microphone attached to the blimp provide the input function and support the user’s manipulation from a distance.
Volumetric Display Based on Vibrating Mylar Beam Splitter and LED Backlit LCD
Lanny Smoot, Quinn Smithwick, and Daniel Reetz; Disney Research
This new display technology uses a circular Mylar beam splitter and adds a tension-adjusting metal hoop pressed against its surface. The beam splitter is adjusted, with high Q, to a specific resonance frequency. Three rim-mounted impulse drivers apply low-amplitude sinusoldal drive. Due to the high Q, the diaphram's sympathetic vibration is large. The beam splitter folds the optical path, and the system includes a fixed-curvature concave mirror to create real images that appear out in front of the apparatus.
A Medical Mirror for Non-Contact Health Monitoring
Ming-Zher Poh, Harvard-MIT Division of Health Sciences and Technology; Daniel McDuff and Rosalind Picard, MIT Media Lab
The Medical Mirror is a novel interactive interface that tracks and displays a user’s heart rate in real time without the need for external sensors. Currently, collection of physiological information requires users to strap on bulky sensors, chest straps, or sticky electrodes. The Medical Mirror allows contact-free measurements of physiological information using a basic imaging device. When a user looks into the mirror, an image sensor detects and tracks the location of his or her face over time. By combining techniques in computer vision and advanced signal processing, the user’s heart rate is then computed from the optical signal reflected off the face. The user’s heart rate is displayed on the mirror, allowing visualization of both the user’s physical appearance and physiological state.
Telenoid: Tele-Presence Android for Communication
Kohei Ogawa, Shuichi Nishio, Kensuke Koda, Koichi Taura, Takashi Minato, Carlos Toshinori Ishii, Hiroshi Ishiguro; ATR Intelligent Robotics and Communication
This new system of telecommunication focuses on the idea of transferring human 'presence'. A minimal human conveys the impression of human existence at first glance, but it doesn’t suggest anything about personal features such as gender or age. The minimal appearance allows people to use Telenoid to transfer their presence to distant places regardless of their personal features.
True 3D Display
Hidei Kimura and Akira Asano, Burton Inc.; Issei Fujishiro and Ayaka Nakatani; Keio University
This research team was the first to use laser-plasma technology for a true-3D display device that allows users to draw 3D images in midair. Now the team has developed a much more compact and precise display, called SRV (Super Real Vision)-5000, based on advanced laser technology. One remarkable feature of the new device is its enhanced resolution: from 300 points per second to 50,000 points per second. It displays 3D objects more faithfully in real time and increases the range of possible applications.