Disclosed herein are systems, computer-implemented methods, and computer-readable media for dialog modeling. The method includes receiving spoken dialogs annotated to indicate dialog acts and task/subtask information, parsing the spoken dialogs with a hierarchical, parse-based dialog model which ope
Disclosed herein are systems, computer-implemented methods, and computer-readable media for dialog modeling. The method includes receiving spoken dialogs annotated to indicate dialog acts and task/subtask information, parsing the spoken dialogs with a hierarchical, parse-based dialog model which operates incrementally from left to right and which only analyzes a preceding dialog context to generate parsed spoken dialogs, and constructing a functional task structure of the parsed spoken dialogs. The method can further either interpret user utterances with the functional task structure of the parsed spoken dialogs or plan system responses to user utterances with the functional task structure of the parsed spoken dialogs. The parse-based dialog model can be a shift-reduce model, a start-complete model, or a connection path model.
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1. A method comprising: training a plurality of hierarchical, parsed-based dialog models, wherein each of the plurality of hierarchical, parsed-based dialog models operates incrementally from left to right and only analyzes an immediately preceding dialog context and wherein the plurality of hierarc
1. A method comprising: training a plurality of hierarchical, parsed-based dialog models, wherein each of the plurality of hierarchical, parsed-based dialog models operates incrementally from left to right and only analyzes an immediately preceding dialog context and wherein the plurality of hierarchical, parsed-based dialog models comprises one of a shift-reduce model, a start-complete model or a connection path model, and wherein: when the plurality of hierarchical, parsed-based dialog models comprises a shift-reduce model, the shift-reduce model has a stack and a tree which (a) shifts each utterance onto the stack, (b) inspects the stack, and (c) based on a stack inspection, performs a reduce action that creates subtrees in the tree;when the plurality of hierarchical, parsed-based dialog models comprises a start-complete model, the start-complete model uses a stack to maintain a global parse state and produces a dialog task structure directly without producing an equivalent tree; andwhen the plurality of hierarchical, parsed-based dialog models comprises a connection path model, the connection path model does not use a stack to maintain a global parse state, and wherein the connection path model (a) directly predicts a connection path from a root to a terminal for each received spoken dialog, and (b) creates a parse tree representing the connection path for each received spoken dialog;parsing, via a processor, spoken dialogs with a hierarchical, parse-based dialog model from the plurality of hierarchical, parsed-based dialog models, to yield parsed spoken dialogs;constructing a functional task structure of the parsed spoken dialogs;predicting a likely next dialog act in a spoken dialog using the functional task structure and the hierarchical, parsed-based dialog model, the likely next dialog act corresponding to a next utterance comprising a clause to be spoken by a speaker, wherein the predicting occurs prior to receiving the next utterance; andselecting a language model for the next utterance based on the likely next dialog act. 2. The method of claim 1, further comprising measuring a dialog efficiency at different dialog stages based on the language model selected. 3. A system comprising: a processor; anda computer-readable storage medium having instructions stored which, when executed by the processor, cause the processor to perform operations comprising:training a plurality of hierarchical, parsed-based dialog models wherein the plurality of hierarchical, parsed-based dialog models operate incrementally from left to right and only analyze an immediately preceding dialog context and wherein the plurality of hierarchical, parsed-based dialog models comprises one of a shift-reduce model, a start-complete model or a connection path model, and wherein: when the plurality of hierarchical, parsed-based dialog models comprises a shift-reduce model, the shift-reduce model has a stack and a tree which (a) shifts each utterance onto the stack, (b) inspects the stack, and (c) based on a stack inspection, performs a reduce action that creates subtrees in the tree;when the plurality of hierarchical, parsed-based dialog models comprises a start-complete model, the start-complete model uses a stack to maintain a global parse state and produces a dialog task structure directly without producing an equivalent tree; andwhen the plurality of hierarchical, parsed-based dialog models comprises a connection path model, the connection path model does not use a stack to maintain a global parse state, and wherein the connection path model (a) directly predicts a connection path from a root to a terminal for each received spoken dialog, and (b) creates a parse tree representing the connection path for each received spoken dialog;parsing spoken dialogs with a hierarchical, parse-based dialog model from the plurality of hierarchical, parsed-based dialog models, to yield parsed spoken dialogs;constructing a functional task structure of the parsed spoken dialogs;predicting a likely next dialog act in a spoken dialog using the functional task structure and the hierarchical, parsed-based dialog model, the likely next dialog act corresponding to a next utterance comprising a clause to be spoken by a speaker, wherein the predicting occurs prior to receiving the next utterance; andselecting a language model for the next utterance based on the likely next dialog act. 4. The system of claim 3, the computer-readable storage medium having additional instructions stored which, when executed by the processor, cause the processor to perform operations comprising measuring a dialog efficiency at different dialog stages based on the language model selected. 5. A computer-readable storage device having instructions stored which, when executed by a computing device, cause the computing device to perform operations comprising: training a plurality of hierarchical, parsed-based dialog models wherein the plurality of hierarchical, parsed-based dialog models operate incrementally from left to right and only analyze an immediately preceding dialog context and wherein the plurality of hierarchical, parsed-based dialog models comprises one of a shift-reduce model, a start-complete model or a connection path model, and wherein: when the plurality of hierarchical, parsed-based dialog models comprises a shift-reduce model, the shift-reduce model has a stack and a tree which (a) shifts each utterance onto the stack, (b) inspects the stack, and (c) based on a stack inspection, performs a reduce action that creates subtrees in the tree;when the plurality of hierarchical, parsed-based dialog models comprises a start-complete model, the start-complete model uses a stack to maintain a global parse state and produces a dialog task structure directly without producing an equivalent tree; andwhen the plurality of hierarchical, parsed-based dialog models comprises a connection path model, the connection path model does not use a stack to maintain a global parse state, and wherein the connection path model (a) directly predicts a connection path from a root to a terminal for each received spoken dialog, and (b) creates a parse tree representing the connection path for each received spoken dialog;parsing spoken dialogs with a hierarchical, parse-based dialog model from the plurality of hierarchical, parsed-based dialog models, to yield parsed spoken dialogs;constructing a functional task structure of the parsed spoken dialogs;predicting a likely next dialog act in a spoken dialog using the functional task structure and the hierarchical, parsed-based dialog model, the likely next dialog act corresponding to a next utterance comprising a clause to be spoken by a speaker, wherein the predicting occurs prior to receiving the next utterance; andselecting a language model for the next utterance based on the likely next dialog act.
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이 특허에 인용된 특허 (16)
Amirghodsi Siamak (Prairie View IL) Daneshbodi Farnoud (Prairie View IL), Adaptive natural language computer interface system.
Horvitz, Eric J., System and methods for inferring informational goals and preferred level of detail of results in response to questions posed to an automated information-retrieval or question-answering service.
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