abe5f82b9d
Speech Dispatcher: Key features: * Common interface to different TTS engines * Handling concurrent synthesis requests -- requests may come assynchronously from multiple sources within an application and/or from different applications * Subsequent serialization, resolution of conflicts and priorities of incomming requests * Context switching -- state is maintained for each client connection independently, event for connections from within one application * High-level client interfaces for popular programming languages * Common sound output handling -- audio playback is handled by Speech Dispatcher rather than the TTS engine, since most engines have limited sound output capabilities What is a very high level GUI library to graphics, Speech Dispatcher is to speech synthesis. The application neither needs to talk to the devices directly nor to handle concurrent access, sound output and other tricky aspects of the speech subsystem.
69 lines
2.1 KiB
Text
69 lines
2.1 KiB
Text
Speech Dispatcher:
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Key features:
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* Common interface to different TTS engines
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* Handling concurrent synthesis requests -- requests may come
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assynchronously from multiple sources within an application and/or
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from different applications
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* Subsequent serialization, resolution of conflicts and priorities of
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incomming requests
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* Context switching -- state is maintained for each client connection
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independently, event for connections from within one application
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* High-level client interfaces for popular programming languages
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* Common sound output handling -- audio playback is handled by Speech
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Dispatcher rather than the TTS engine, since most engines have limited
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sound output capabilities
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What is a very high level GUI library to graphics, Speech Dispatcher is
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to speech synthesis. The application neither needs to talk to the devices
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directly nor to handle concurrent access, sound output and other tricky
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aspects of the speech subsystem.
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Supported TTS engines:
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* Festival
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* Flite
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* Espeak
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* Cicero
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* IBM TTS
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* Espeak+MBROLA (through a generic driver)
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* Epos (through a generic driver)
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* DecTalk software (through a generic driver)
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* Cepstral Swift (through a generic driver)
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* Ivona
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* Pico
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Supported sound output subsystems:
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* OSS
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* ALSA
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* PulseAudio
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* NAS
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The architecture is based on a client/server model. The clients are all
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the applications in the system that want to produce speech (typically
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assistive technologies). The basic means of client communication with
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Speech Dispatcher is through a Unix socket or Inet TCP connection using
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the Speech Synthesis Interface Protocol (See the SSIP documentation for
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more information). High-level client libraries for many popular
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programming languages implement this protocol to make its usage as
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simple as possible.
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Supported client interfaces:
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* C/C++ API
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* Python 3 API
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* Java API
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* Emacs Lisp API
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* Common Lisp API
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* Guile API
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* Simple command line client
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Existing assistive technologies known to work with Speech Dispatcher:
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* speechd-el
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* Orca (see http://live.gnome.org/Orca/SpeechDispatcher)
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* Yasr
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* LSR
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* BrlTTY
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