Patent application number | Description | Published |
20100153114 | AUDIO OUTPUT OF A DOCUMENT FROM MOBILE DEVICE - Architecture for playing a document converted into an audio format to a user of an audio-output capable device. The user can interact with the device to control play of the audio document such as pause, rewind, forward, etc. In more robust implementation, the audio-output capable device is a mobile device (e.g., cell phone) having a microphone for processing voice input. Voice commands can then be input to control play (“reading”) of the document audio file to pause, rewind, read paragraph, read next chapter, fast forward, etc. A communications server (e.g., email, attachments to email, etc.) transcodes text-based document content into an audio format by leveraging a text-to-speech (TTS) engine. The transcoded audio files are then transferred to mobile devices through viable transmission channels. Users can then play the audio-formatted document while freeing hand and eye usage for other tasks. | 06-17-2010 |
20100312563 | TECHNIQUES TO CREATE A CUSTOM VOICE FONT - Techniques to create and share custom voice fonts are described. An apparatus may include a preprocessing component to receive voice audio data and a corresponding text script from a client and to process the voice audio data to produce prosody labels and a rich script. The apparatus may further include a verification component to automatically verify the voice audio data and the text script. The apparatus may further include a training component to train a custom voice font from the verified voice audio data and rich script and to generate custom voice font data usable by the TTS component. Other embodiments are described and claimed. | 12-09-2010 |
20120109656 | AUDIO OUTPUT OF A DOCUMENT FROM MOBILE DEVICE - Architecture for playing a document converted into an audio format to a user of an audio-output capable device. The user can interact with the device to control play of the audio document such as pause, rewind, forward, etc. In more robust implementation, the audio-output capable device is a mobile device (e.g., cell phone) having a microphone for processing voice input. Voice commands can then be input to control play (“reading”) of the document audio file to pause, rewind, read paragraph, read next chapter, fast forward, etc. A communications server (e.g., email, attachments to email, etc.) transcodes text-based document content into an audio format by leveraging a text-to-speech (TTS) engine. The transcoded audio files are then transferred to mobile devices through viable transmission channels. Users can then play the audio-formatted document while freeing hand and eye usage for other tasks. | 05-03-2012 |
20120293529 | DISPLAYING AND INPUTTING SYMBOLS - Methods, systems, and computer-storage media having computer-usable instructions embodied thereon, for displaying and inputting symbols are provided. Bopomofo symbols are phonetic representations of Chinese characters. To accommodate all the Bopomofo symbols on a mobile device keyboard without sacrificing key size, the Bopomofo keys are dynamically disabled based on grammar rules and user inputs. For example, a symbol that is not eligible to follow an input symbol is disabled such that it does not distract a user searching for a symbol in the keyboard. Further, specific keys on a keyboard are dynamically replaced with tone keys once a user inputs a symbol. A user interface for displaying the symbols is, thus, consistent and easy to navigate for a user. | 11-22-2012 |
20120297332 | ADVANCED PREDICTION - Described herein is an IME that makes text predictions (e.g., character, phonetic, symbol, word, phrase, and number) and suggests the predictions to a user based on text previously entered in a text box. The IME may base the predictive text on entries in a table or dictionary or historical user text entries. Initial predictions of text are suggested when nothing is entered in the text box. Numeric or punctuation may also be suggested when appropriate. If no predictions can be ascertained, the IME may suggest default predictions to the user. | 11-22-2012 |
20130159920 | SCENARIO-ADAPTIVE INPUT METHOD EDITOR - An input method editor (IME) described herein couples scenarios of the input of the user with specific network services to offer more relevant and richer candidates for higher input productivity. Data relating to a computer application in which the input candidates are to be input and/or context relating to a user-submitted query is collected and analyzed to determine a scenario. The input candidates may include text candidates and rich candidates. The IME may select a scenario-tuned and type specific engine to identify the text candidates and/or rich candidates. The scenario-tuned text candidate engines leverage scenario-tuned language models and lexicons, and the scenario-tuned rich candidate engines leverage scenario-relevant web services, such as image, mapping, and video search, when available and appropriate. | 06-20-2013 |
20140026091 | Inputting Radical On Touch Screen Device - Example apparatus and methods concern improved input of radicals. Example apparatus and methods facilitate more efficiently inputting Chinese radicals using a touch screen. One example method includes displaying a labeled soft key on a touch screen device. The label may represent all or a portion of a radical. The example method includes accepting a touch input associated with the soft key and then taking an action based on the label and the touch input. The action may include inputting a radical or updating the display on the touch screen. Updating the display may facilitate iterative and intuitive progress through radical construction leading to radical selection and input. | 01-23-2014 |
20140104181 | DISPLAYING AND INPUTTING SYMBOLS - Methods, systems, and computer-storage media having computer-usable instructions embodied thereon, for displaying and inputting symbols are provided. Bopomofo symbols are phonetic representations of Chinese characters. To accommodate all the Bopomofo symbols on a mobile device keyboard without sacrificing key size, the Bopomofo keys are dynamically disabled based on grammar rules and user inputs. For example, a symbol that is not eligible to follow an input symbol is disabled such that it does not distract a user searching for a symbol in the keyboard. Further, specific keys on a keyboard are dynamically replaced with tone keys once a user inputs a symbol. A user interface for displaying the symbols is, thus, consistent and easy to navigate for a user. | 04-17-2014 |
20140160032 | Swipe Stroke Input and Continuous Handwriting - Swipe-stroke input and continuous handwriting are provided. A stroke sequence or a portion of a stroke sequence of a Chinese character may be input via selecting one or more stroke buttons via a swipe gesture. Candidate characters may be determined and provided when an indication is received that a stroke sequence input has ended. A candidate may be selected, or a next stroke sequence may be input. As additional input is received, phrase candidates may be predicted and dynamically provided. An end-of-input (EOI) panel may be provided, which when selected, provides an indication of an end of a current handwriting input and allowing a next handwriting input to be entered. By providing a selectable functionality to indicate an end of a current handwriting input, a continuous and more efficient handwriting experience is provided. Past handwriting input may be stored and accessed, allowing a user to edit the past handwriting input. | 06-12-2014 |