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Multimodal Architecture and Interfaces is an open standard developed by the World Wide Web Consortium since 2005. It was published as a Recommendation of the W3C on October 25, 2012. The document is a technical report specifying a multimodal system architecture and its generic interfaces to facilitate integration and multimodal interaction ...
A multimodal interface provides several distinct tools for input and output of data. Multimodal human-computer interaction involves natural communication with virtual and physical environments. It facilitates free and natural communication between users and automated systems, allowing flexible input (speech, handwriting, gestures) and output ...
Multimodal application designs can use different modalities (for example, voice vs. touchscreen vs. keyboard and mouse) for different parts of a communication best suited to it. For example, voice input can be used to avoid having to type on the small screen of a mobile phone, but the screen may be a faster way of communicating a list or map ...
This is a list of notable library packages implementing a graphical user interface (GUI) platform-independent GUI library (PIGUI). These can be used to develop software that can be ported to multiple computing platforms with no change to its source code.
Micro Saint Sharp's intuitive graphical user interface and flow chart approach to modeling make it a tool that can be used by generalists as well as simulation experts. In 2003 Micro SAINT was completely redesigned by MA&D to take advantage of the C# programming language and Microsoft .NET environment. This allowed it to be faster and more modular.
Multimodal learning, machine learning methods using multiple input modalities; Multimodal transport, a contract for delivery involving the use of multiple modes of goods transport; Multimodality, the use of several modes (media) in a single artifact; Multimodal logic modal logic that has more than one primitive modal operator
An example is representational significance: do physical and digital representations have the same strength and salience? According to Mi Jeong Kim and Mary Lou Maher, the five basic defining properties of tangible user interfaces are as follows: [4] Space-multiplex both input and output. Concurrent access and manipulation of interface components.
Multimodal interfaces are a good candidate for the creation of Enactive interfaces because of their coordinated use of haptic, sound and vision.Such research is the main objective of the ENACTIVE Network of Excellence, a European consortium of more than 20 research laboratories that are joining their research effort for the definition, development and exploitation of enactive interfaces.