Matching Items (2)
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Food Sustainability: an Agricultural, Ethical, and Millennial Perspective through Film

Description
This documentary shows how what we eat affects our planet. Meat and dairy consumption is the number one pollutant to the environment and yet it is often not discussed among environmentalists. There is so much devastation taking place on our planet due the animal agriculture industry: air pollution, and water

This documentary shows how what we eat affects our planet. Meat and dairy consumption is the number one pollutant to the environment and yet it is often not discussed among environmentalists. There is so much devastation taking place on our planet due the animal agriculture industry: air pollution, and water contamination, destruction of the the Amazon rainforests. Natural resources, such as water - it takes one thousand gallons of water to produce one gallon of milk - are being over consumed. Land is being cleared of trees at a massive scale in the Amazon to make more room for land to raise livestock and grow its feed. Following the stories and experiences of several ASU students and other community members, the documentary highlights this connection between food and its effects on the environment and what people can do to make a difference.
ContributorsKoka, Vaishnavi (Author) / Barca, Lisa (Thesis director) / Meloy, Elizabeth (Committee member) / Electrical Engineering Program (Contributor) / Barrett, The Honors College (Contributor)
Created2018-05
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Data Representation for Predicting Harmonic Clusters with LSTM

Description

The purpose of this project is to create a useful tool for musicians that utilizes the harmonic content of their playing to recommend new, relevant chords to play. This is done by training various Long Short-Term Memory (LSTM) Recurrent Neural Networks (RNNs) on the lead sheets of 100 different jazz

The purpose of this project is to create a useful tool for musicians that utilizes the harmonic content of their playing to recommend new, relevant chords to play. This is done by training various Long Short-Term Memory (LSTM) Recurrent Neural Networks (RNNs) on the lead sheets of 100 different jazz standards. A total of 200 unique datasets were produced and tested, resulting in the prediction of nearly 51 million chords. A note-prediction accuracy of 82.1% and a chord-prediction accuracy of 34.5% were achieved across all datasets. Methods of data representation that were rooted in valid music theory frameworks were found to increase the efficacy of harmonic prediction by up to 6%. Optimal LSTM input sizes were also determined for each method of data representation.
ContributorsRangaswami, Sriram Madhav (Author) / Lalitha, Sankar (Thesis director) / Jayasuriya, Suren (Committee member) / Electrical Engineering Program (Contributor) / Barrett, The Honors College (Contributor)
Created2021-05