present Parakeet, a system for continuous speech recognition on mobile touch-screen devices. The design of Parakeet was guided by computational experiments and validated by a user study. Participants had an average text entry rate of 18 words-per-minute (WPM) while seated indoors and 13 WPM while walking outdoors. In an expert pilot study, we found that speech recognition has the potential to be a highly competitive mobile text entry method, particularly in an actual mobile setting where users are walking around while entering text. Copyright 2009 ACM
In this paper, we explore high performance software and hard-ware implementations of an automatic sp...
Speech recognition reduces the overhead causedby alternate communication methods. Speech has notbeen...
When designing interaction techniques for mobile devices we must ensure users are able to safely nav...
We demonstrate Parakeet - a continuous speech recognition system for mobile touch-screen devices. Pa...
We demonstrate Parakeet – a continuous speech recognition system for mobile touch-screen devices. Pa...
Correcting recognition errors is often necessary in a speech interface. These errors not only reduc...
Correcting recognition errors is often necessary in a speech interface. The process of correcting er...
The availability of real-time continuous speech recognition on mobile and embedded devices has opene...
The availability of real-time continuous speech recognition on mobile and embedded devices has opene...
In this paper, we describe our experiences and thoughts on building speech applications on mobile de...
Technology has revolutionized the world as we know it. Nowadays people do not interact so much face-...
Thesis (Ph.D.)--University of Washington, 2014I present new methods and studies that aim to improve ...
The enthusiasm of deploying automatic speech recognition (ASR) onmobile devices is driven both by re...
The research presented in this paper is part of an ongoing investigation into how best to incorporat...
In the ubiquitous (pervasive) computing era, it is expected that everybody will access information s...
In this paper, we explore high performance software and hard-ware implementations of an automatic sp...
Speech recognition reduces the overhead causedby alternate communication methods. Speech has notbeen...
When designing interaction techniques for mobile devices we must ensure users are able to safely nav...
We demonstrate Parakeet - a continuous speech recognition system for mobile touch-screen devices. Pa...
We demonstrate Parakeet – a continuous speech recognition system for mobile touch-screen devices. Pa...
Correcting recognition errors is often necessary in a speech interface. These errors not only reduc...
Correcting recognition errors is often necessary in a speech interface. The process of correcting er...
The availability of real-time continuous speech recognition on mobile and embedded devices has opene...
The availability of real-time continuous speech recognition on mobile and embedded devices has opene...
In this paper, we describe our experiences and thoughts on building speech applications on mobile de...
Technology has revolutionized the world as we know it. Nowadays people do not interact so much face-...
Thesis (Ph.D.)--University of Washington, 2014I present new methods and studies that aim to improve ...
The enthusiasm of deploying automatic speech recognition (ASR) onmobile devices is driven both by re...
The research presented in this paper is part of an ongoing investigation into how best to incorporat...
In the ubiquitous (pervasive) computing era, it is expected that everybody will access information s...
In this paper, we explore high performance software and hard-ware implementations of an automatic sp...
Speech recognition reduces the overhead causedby alternate communication methods. Speech has notbeen...
When designing interaction techniques for mobile devices we must ensure users are able to safely nav...