Predicting Daily Activity with a Deep Neural Network


Predicting Daily Activity with a Deep Neural Network – We present the first real-time and scalable approach for the problem of predicting the outcome of a simulated election. The prediction is performed during the course of a daily election. One particular feature of this challenge is that even for a few days, the forecast accuracy of the prediction is always significantly lower than that of the observed forecast.

We consider the problem of extracting salient and unlabeled visual features from a text, and thus derive an approach that works well for image classification. As the task is multi-dimensional, we design a deep Convolutional Neural Network (CNN) that learns a visual feature descriptor by minimizing an image’s weighting process using the sum of the global feature maps, then learning a descriptor from the weights in the final feature map. We illustrate the effectiveness of CNNs trained on the Penn Treebank (TT) dataset and a standard benchmark task for image classification.

Human cognition is a complicated and demanding task that needs to be addressed. In this work, we propose to combine the knowledge of human cognition with an understanding of neural machine translation by translating an artificial neural network into human language. To this end, we develop and study a deep neural network that utilizes the recently developed neural embedding method called SentiSpeech which combines information in the form of a text vector with a neural embedding. The encoder and decoder are deep neural nets with convolutional neural networks. The encoder and decoder use the learned embedding to encode human language into a neural language, and the encoder and decoder encode the human language from a neural language into another neural language. We illustrate our method on the tasks of semantic understanding and language understanding, and on the task of text classification. We achieve state of the art results on both tasks.

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Predicting Daily Activity with a Deep Neural Network

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  • PanoqueCa: Popper and Context for Semantic Parsing of Large Categorical Datasets

    Deep Learning: A Deep Understanding of Human Cognitive ProcessesHuman cognition is a complicated and demanding task that needs to be addressed. In this work, we propose to combine the knowledge of human cognition with an understanding of neural machine translation by translating an artificial neural network into human language. To this end, we develop and study a deep neural network that utilizes the recently developed neural embedding method called SentiSpeech which combines information in the form of a text vector with a neural embedding. The encoder and decoder are deep neural nets with convolutional neural networks. The encoder and decoder use the learned embedding to encode human language into a neural language, and the encoder and decoder encode the human language from a neural language into another neural language. We illustrate our method on the tasks of semantic understanding and language understanding, and on the task of text classification. We achieve state of the art results on both tasks.


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