Waibel, A., Vo, M., Duchnowski, P., Manke, S. "Multimodal Interfaces", Artificial Intelligence Review, Vol.10, No.3-4, 1995.  Home/Search   Document Details and Download   Summary   Related Articles   Check

....improving continuous gesture recognition results based on a co occurrence analysis of different gestures with spoken keywords. Performance improvement also has been found in audiovisual speech recognition systems by adaptively weighting both the audio and visual recognition channels [13] 14] [15]. In theory, the optimal weights for combining the posterior probabilities from different modes can be determined by the mode conditional input feature density functions, as will be described in section IV of this paper. In practice, it is difficult or even impossible to evaluate these ....

A. Waibel, M.T. Vo, P. Duchnowski, and S. Manke, "Multimodal interfaces," Artificial Intelligence Review, Special Volume on Integration of Natural Language and Vision Processing, vol. 10, no. 3-4, pp. 299--319, Aug. 1995.

....improving continuous gesture recognition results based on a co occurrence analysis of different gestures with spoken keywords. Performance improvement also has been found in audiovisual speech recognition systems by adaptively weighting both the audio and visual recognition channels [13] 14] [15]. In theory, the optimal weights for combining the posterior probabilities from different modes can be determined by the mode conditional input feature density functions, as will be described in section IV of this paper. In practice, it is difficult or even impossible to evaluate these ....

A. Waibel, M.T. Vo, P. Duchnowski, and S. Manke, "Multimodal interfaces," Artificial Intelligence Review, Special Volume on Integration of Natural Language and Vision Processing, vol. 10, no. 3-4, pp. 299--319, Aug. 1995.

....are capable of freeing computer users from the constraints of keyboard and mouse. Although they are not sufficiently advanced to be used individually for robust human machine communication, they have adequately advanced to serve simultaneous multisensory information exchange (Cohen et al. 1996, Waibel et al. 1995). The challenge is to properly combine these technologies to emulate the natural style of human human communication by making the combination robust and intelligent (Flanagan and Marsic 1997) Problem Statement The objective of this research is to establish, quantify, and evaluate techniques for ....

Waibel, A.; Vo, M.T.; Duchnowski, P; and Manke, S. 1995. Multimodal Interfaces. Artificial Intelligence Review, 10(3-4).

....at the Interactive Systems Laboratories (Carnegie Mellon University and University of Karlsruhe) are focused on producing a sensible and useful user interface to support the multimodal human computer interaction. Some of our initial works along this line have been reported in previous publications [4, 5]. While multimodal interfaces offer greater flexibility and robustness, they have still been largely pen or voice based, user activated, and operate in settings where headsets, helmets, suits, buttons or other constraining devices are required. If more freedom is to be provided to users, some ....

A. Waibel, M.T. Vo, P. Duchnowski, and S. Manke, "Multimodal Interfaces," Artificial Intelligence Review, Special Volume on Integration of Natural Language and Vision Processing, McKevitt, P. (Ed.), Vol. 10, Nos. 3-4, 1995.

....such as speech, sight and touch, are capable of freeing computer users from the keyboard and mouse. Although they are not sufficiently advanced to be used individually for robust human machine communication, they have adequately advanced to serve simultaneous multisensory information exchange [2] [6]. The challenge is to properly combine these technologies to replicate the natural style of human human communication by making the combination robust and intelligent [3] 2 Problem Statement The objective of this research is to establish, quantify, and evaluate techniques for designing ....

A. Waibel, M. T. Vo, P. Duchnowski, and S. Manke, "Multimodal Interfaces," Artificial Intelligence Review, Vol.10, No.3-4, 1995.

....such as speech, sight and touch, are capable of freeing computer users from the keyboard and mouse. Although they are not sufficiently advanced to be used individually for robust human machine communication, they have adequately advanced to serve simultaneous multisensory information exchange [2] [4]. The challenge is to properly combine these technologies to replicate the natural style of human human communication by making the combination robust and intelligent [3] This study combines real time speech input with asynchronous gesture input provided by the mouse pointer. The use of mouse ....

A. Waibel, M. T. Vo, P. Duchnowski, and S. Manke, "Multimodal Interfaces," Artificial Intelligence Review, Vol.10, No.3-4, 1995.

....sight and touch, are capable of freeing computer users from the constraints of keyboard and mouse. Although they are not sufficiently advanced to be used individually for robust human machine communication, they have adequately advanced to serve simultaneous multisensory information exchange [3] [13]. The challenge is to properly combine these technologies to emulate the natural style of human human communication by making the combination robust and intelligent [4] PROBLEM STATEMENT The objective of this research is to establish, quantify, and evaluate techniques for designing synergistic ....

A. Waibel, M. T. Vo, P. Duchnowski, and S. Manke, "Multimodal Interfaces," Artificial Intelligence Review, Vol.10, No.3-4, 1995.

.... of such multimodal input sources can take advantage of the redundancy and complementary information across modalities to increase flexibility and robustness [1] 7] 8] 12] Our multimodal research has focused on building practical applications which support multiple input modalities [15] 16] 17][18]. In the course of implementing these applications, we have concluded that there is a need for methods to characterize multimodal user inputs, both syntactically and semantically. In the absence of extensive input data collected for a given task domain, an application developer may have to ....

Waibel, A., Vo, M.T., Duchnowski, P., and Manke, S., "Multimodal Interfaces," Artificial Intelligence Review, Special Volume on Integration of Natural Language and Vision Processing, McKevitt, P. (Ed.), Vol. 10, Nos. 3-4, 1995.

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Waibel, A., Vo, M., Duchnowski, P., Manke, S. "Multimodal Interfaces", Artificial Intelligence Review, Vol.10, No.3-4, 1995.

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A. Waibel, M. T. Vo, P. Duchnowski, and S. Manke, "Multimodal interfaces, " Artificial Intell. Rev., Special Volume Integration Natural Language Vision Processing, vol. 10, no. 3--4, pp. 299--319, Aug. 1995.

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Waibel, A., Vo, M.,T., Duchnowski, P., Manke, S. (1995). "Multimodal interfaces." Artificial Intelligence Review 10(3-4): pp.299-319.

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