Project

Wearable Wisdom

Copyright

Fluid Interfaces

Fluid Interfaces

Wearable Wisdom: An Intelligent Audio-Based System for Mediating Wisdom and Advice

Having good mentors and role models is important for personal growth. However, they are not always available at the time of need. Some of our personal heroes have passed away leaving only their wisdom through writings and other artifacts. We present Wearable Wisdom, an intelligent, audio-based system for mediating wisdom and advice from mentors and personal heroes to a user. It does so by performing automated semantic analysis on the collected wisdom database and generating a simulated voice of a mentor sharing relevant wisdom and advice with the user. The results show that our platform is statistically superior in delivering relevant, yet abstract wisdom as well as providing more inspiration compared to control. We describe the implementation of the Wearable Wisdom system, report on a user study, and discuss potential applications of wisdom computation for supporting personal growth and motivation.

Copyright

Fluid Interfaces

Wearable Wisdom is a context-aware, audio-based wearable system for mediating advice from mentors to the user. Through audio-based augmented reality glasses, our system offers just-in-time wisdom and advice based on the user’s query and current context by generating a simulated voice of a mentor sharing relevant wisdom and advice with the user. Our system consists of a wearable audio I/O device, a smartphone capable of real-time utterance recognition and context detection, and a backend infrastructure for storing the mentor profiles, processing user inputs and providing responses. 

Copyright

Fluid Interfaces

Based on the literature, we aim to leverage state of the art, context-aware wearables, NLP, and intelligent agent systems to create technology that can provide the user with motivational feedback beyond factual information. Our contributions are: 1) developing and implementing the software architecture for the intelligent wearable audio-based system capable of sensing and offering real-time feedback to the wearer, 2) demonstrating the use of algorithms to effectively deliver relevant, yet abstract wisdom and advice to the user, and 3) exploring the novel area of wisdom computation through user studies. 

Copyright

Fluid Interfaces

We developed Wisdom Paring Algorithm (WPA) based on the Word Mover’s Distance (WMD) method to measure the semantic similarity between two given phrases. At a high level, this algorithm uses a word2vec to output the distance or dissimilarity between two texts. Given two words, i and j, we can compute c(i,j), which is the Euclidean distance or "cost of travel" between them per the word2vec model. The overall distance between two texts is defined as the minimum cumulative cost required to move all words to transform one text to another. Word2vec and WMD work particularly well for our purposes, since we are trying to compare abstract questions and non- factual answers. WMD allows flexibility in deducing the meaning of the text. For the semantic matching scheme in our project, we used the Google News word2vec model. WPA pre-processes the user input by removing stop words and non- alphabetic characters. Given the question from user input, we calculate WMD for all of the questions/answers in the database and can provide an appropriate response from the quotes with the smallest distance. 

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Fluid Interfaces

Through T-test statistical analysis, our results from 420 ratings (n = 10) show that our algorithm is statistically superior in pairing the wisdom and advice with the questions (P-value = 0.0004), as well as in delivering more inspirational wisdom (P-value = 0.0019) compared to the control. This results demonstrate the efficacy of our algorithm to deliver relevant, yet abstract wisdom and advice to the user.

Copyright

Fluid Interfaces