The future of narrative in a project that studies the hidden relationships and contextual emergence of language.
Art and Science
In the history of art-and-science research, which began in the late 1960s, one aspect that has received insufficient attention is the field’s relationship to literature (narrative), perhaps because technological factors discouraged literature specialists from approaching the field. But now that the use of computers as an inter-medium is finally beginning to mature, it has possible for men and women of letters to get closer to computers. This project uses “the future of narrative” as a theme to research how computers can offer humor, wisdom, and inspiration. So far, art-and-science research projects have focused mainly on nonverbal communication modes, such as feeling and atmosphere. In i.plot, the logical meaning of language and its intuitive aspects, such as atmosphere and feeling, have been joined together.
A future of narrative that can generate interactive literature and scripts for interactive cinema.
This system discovers the hidden connections between words. It determines that a connection between words exists if two words are found in the same thought-form or make up a stimulus-response pair in the Edinburgh Associative Thesaurus. Then it finds several connections between the two words by tracing a large set of possible paths between them, so that the paths traverse several two-word connections. If the chaos engine is in an appropriate state, a preference may be added so that longer paths are displayed, or so that the paths are forced to connect through a more distantly connected word. The user may further expand the connections of any word of interest.
A restaurant guide based on the inspiration system was built from France Telecom’s Yellow Pages database. Each of the restaurant categories and locations in Paris was entered into the system and connected to related words (pizzeria: italian food, tomato; creperie: date, sweets; fast food: quick, cheap). Users select (or ask the system to select) a location and input their preferences for restaurant atmosphere. A set of words appears, and users can select any word that appears on the screen. The system searches for a restaurant type closely related to that word, and a nearby restaurant of that type is displayed on the screen.
Using data obtained from the open database WordNet (Princeton University) as well as manual categorization, the words in the database were classified according to their grammatical properties in six categories: who, what, where, when, how, and verb. Users seed the system with a few idea words. The system then generates a sentence of various lengths ranging from two to five words (minus articles, conjunctions, etc.) based on these input words. Wherever there is a blank space in the sentence, the system fills it in, seeking words inspirationally linked to the words surrounding the space.
Rather than attaching symbols to existing word associations, the system applies a set of associations directly between symbols. These associations are based on the thought-forms explained above, where connections are based on geometric forms. Users can seed the engine by entering words linked to images in the input textboxes or by clicking one of the colored thought-form buttons at the top of the screen.
The blog system allows the system to accept complete sentences as input. Connections between key words in the sentence are all considered, and intersecting words are displayed on the screen. The connections between each entry and the preceding entry are also included, so that the context generated within each entry is continuous.
The robot’s emotional expression and synthesized voice are automatically generated in accordance with the inspirational word context. When users interact with the inspiration system, the key words are extracted by the system and converted into behaviors via language-emotion mapping and sent to the robot over a Bluetooth connection.
The next phase of interaction technology and expression between computers and humans will focus on interactive narrative methods. Routine human-computer interactions still generate many logical, boring experiences. This project, because it provides inspiration containing humor and wisdom, offers people new opportunities for stimulation and symbiosis It seems certain that in the future, through the addition of narrative technology to art and science, a new, creative “interactive narrativity” will develop and generate a new era of human-machine collaboration.
Editorial Engineering Lab
Kansai Gakuin University