Multi-purpose contextual control
First Claim
1. A system for activating a plurality of functions based on speech input, wherein the system is embedded in an apparatus, comprising:
- a memory storing a plurality of states, wherein each state is associated with at least one function from the plurality of functions and a data model from a set of data models;
an automatic speech recognition (ASR) engine for interpreting, based on the data model, the speech input into a functional input for activating the function;
a plurality of controls, wherein there is one control for each state forming one-to-one correspondence between a control and a state, and wherein the control, upon activation, generates a signal associated with the state;
a state transition module for transitioning the system to the state based on the signal, such that the system interprets the speech input using only the data model associated with the state, and execute the function associated with the state according to the functional input; and
a processor operatively connected to the memory for executing the ASR engine and the state transition module.
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Abstract
A method and a system for activating functions including a first function and a second function, wherein the system is embedded in an apparatus, are disclosed. The system includes a control configured to be activated by a plurality of activation styles, wherein the control generates a signal indicative of a particular activation style from multiple activation styles; and controller configured to activate either the first function or the second function based on the particular activation style, wherein the first function is configured to be executed based only on the activation style, and wherein the second function is further configured to be executed based on a speech input.
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Citations
5 Claims
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1. A system for activating a plurality of functions based on speech input, wherein the system is embedded in an apparatus, comprising:
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a memory storing a plurality of states, wherein each state is associated with at least one function from the plurality of functions and a data model from a set of data models; an automatic speech recognition (ASR) engine for interpreting, based on the data model, the speech input into a functional input for activating the function; a plurality of controls, wherein there is one control for each state forming one-to-one correspondence between a control and a state, and wherein the control, upon activation, generates a signal associated with the state; a state transition module for transitioning the system to the state based on the signal, such that the system interprets the speech input using only the data model associated with the state, and execute the function associated with the state according to the functional input; and a processor operatively connected to the memory for executing the ASR engine and the state transition module. - View Dependent Claims (2, 3, 4, 5)
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Specification