These are old web pages lasted updated in 2010. Shumin Zhai’s current web pages are at http://www.shuminzhai.com
[Publications Professional Activities Bio-sketch
Press
Lectures/Talks
Contact Info]
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Highlights (Representitative research projects,
see publications for other projects)
ShapeWriter
Human-Computer/Information interaction is rapidly moving from a desktop model to an multi-device and information cloud model. Text is an indispensable form of information. With this background, the ShapeWriter project (with Per-Ola Kristensson and ShapeWriter Inc) pioneered gesture keyboard as a new paradigm of information input on touch screens.
Project Home Page|“A new way of writing" by Mike Langberg of Mercury News| A brief history of ShapeWriter | "Top 11 iPhone Applications" by Time.com | ADC 50 - Android Developer Challenge Winner | ShapeWriter Inc | “Text Entry Epiphany” - the first comprehensive ShapeWriter review in 2004 | iPhone ShapeWriter user reviews | Key papers on ShapeWriter| Press Coverage |
FonePal
Bothered by “Welcome to ... Press 1 for ... Press 2 ... Press 9 to Repeat”? FonePal is a multichannel, multimodal and multidevice solution to the “Touchtone Hell” IVR problem. See a video demo and papers.
Eye-tracking augmented user interfaces
The eye, being simulatenously the mind's window to the world and a world's window to the mind, has many potential applications in human-computer interaction. Two applications I have been invovled in are MAGIC Pointing (with Ihde and Morimoto) and iTourist (with P. Qvarfordt). I have argued that whenever possible the eye-gaze should be used as a contextual and implicit, rather than a direct and explicit modality of computer input. See an CACM article on eye-tracking, and my keynote abstract and slides at the 2008 ACM Eye-tracking Research and Applications Symposium.
Laws of action
In any research field establishing robust laws and regularities are fundamental to the field's development. This is considerably harder in HCI given the complexity of human performance, behavior and experience. Fortunately some perceptual-motor actions in HCI can be modeled by “Laws of Action". Contributions I have helped to make in this area include 1. Clarifying a fundamental logical error of using a compound throughput (TP) metric to characterize computer input with Fitts' law (MT = a + b ID) and suggesting that a and b separately represent the non-informational and informational aspects of pointing; 2. (With Kong and Ren) Understanding actual and nominal pointing precision in Fitts’ law tasks. 3. (With J. Accot) A more rigorous understanding and formulation of 2D Fitts' law, or more precisely models of pointing with simultaneous amplitude and directional constraint. 4 (With J. Accot) The regularities in crossing actions (“more than dotting the i's). 5 (With J. Accot) The steering law, its connection to Fitts' law and its strength against movement scaling. 6 (With X. Cao) The CLC model of gesture stroke complexity.
ScrollPointTM Mouse
A common challenge to research is the lack of opportunity to make a broad and direct impact on technologies used by real users. I was fortunate to work with (and lead) a team of engineers from IBM and IBM vendors (and their vendors) to bring the ScrollPoint mouse from research to market (received a CES award and millions of users). In addition to the central function, every “peripheral” factors can also make or break a product, including cost, design (both deep and surface), packaging and install, and retrofitting its software to operating systems that are not designed to support new user interfaces. HCI researchers and practitioners with broad skills are uniquely suited to drive a user experience centered system engineering process in product development. For example, in order to balance between cost and quality, a deep user experience and human performance understanding can be applied to decisions on sensor quality, processor speed, A/D conversion resolution, and the shape and form appeal of a mouse. I hope one day to find the time to write “The tale of a mouse”.
6 DOF input control
Researchers sometimes wonder whether academic research is really useful to the larger world. This project on multiple degrees of freedom input control was rather academic and abstract when it was done (advised by P. Milgram and B. Buxton at the University of Toronto), but it has found surprising amount of practical (and academic) applications. Researchers, engineers, designers and industry executives personally tell me how they use the concepts, understanding, and methods developed in this research project in their design, development, and research of new 6DOF controllers. Key contributions of this research include the taxonomy of controller resistance (isometric, elastic, and isotonic), the relationship between transfer function and controller property (e.g. rate control's compatibility with self-centering devices), the effect of different muscle groups in 6DOF manipulation, effective evaluation tasks (6DOF docking and 6DOF tracking), and methods of quantifying coordination in multiple degrees of freedom input control. The work was driven by the need of designing telerobotics and virtual reality interfaces, but the recent wild success of the Nintendo Wii has liberated multiple DOF controllers from these specialized fields to ordinary households. Read more on manipulation and navigation in 3D interfaces.
Professional Activities
Editor-in-Chief, ACM Transactions on Computer-Human Interaction
Other Conference Committees, Editorial Boards, Adjunct Appointments
Research Collaborators
A list of my IBM colleagues, Postdoctoral fellows, PhD students, PhD committees, Academic visitors, Hosts of academic visits, and Graduate interns.
Contact Info
emails
last name at acm.org for ACM TOCHI jounral communications
last name at us.ibm.com for IBM matters
first name dot last name at gmail.com for personal emails
phone –
(408)927-1112 (Office), (408)476-6038 (
mail – Shumin Zhai,
[ lIBM Research - Almaden | IBM Research | IBM home page]