John Cristian Borges Gamboa scite author profile

John Cristian Borges Gamboa

5Publications

71Citation Statements Received

93Citation Statements Given

How they've been cited

How they cite others

114

Affiliations

University of Kaiserslautern, Federal University of Rio Grande do Sul

Publications

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Deep Learning for Time-Series Analysis

Gamboa¹

2017

Preprint

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In many real-world application, e.g., speech recognition or sleep stage classification, data are captured over the course of time, constituting a Time-Series. Time-Series often contain temporal dependencies that cause two otherwise identical points of time to belong to different classes or predict different behavior. This characteristic generally increases the difficulty of analysing them. Existing techniques often depended on hand-crafted features that were expensive to create and required expert knowledge of the field. With the advent of Deep Learning new models of unsupervised learning of features for Time-series analysis and forecast have been developed. Such new developments are the topic of this paper: a review of the main Deep Learning techniques is presented, and some applications on Time-Series analysis are summaried. The results make it clear that Deep Learning has a lot to contribute to the field.

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AirScript - Creating Documents in Air

Dash

Sahu

Shringi

et al. 2017

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This paper presents a novel approach, called AirScript, for creating, recognizing and visualizing documents in air. We present a novel algorithm, called 2-DifViz, that converts the hand movements in air (captured by a Myo-armband worn by a user) into a sequence of x, y coordinates on a 2D Cartesian plane, and visualizes them on a canvas. Existing sensor-based approaches either do not provide visual feedback or represent the recognized characters using prefixed templates. In contrast, AirScript stands out by giving freedom of movement to the user, as well as by providing a real-time visual feedback of the written characters, making the interaction natural. AirScript provides a recognition module to predict the content of the document created in air. To do so, we present a novel approach based on deep learning, which uses the sensor data and the visualizations created by 2-DifViz. The recognition module consists of a Convolutional Neural Network (CNN) and two Gated Recurrent Unit (GRU) Networks. The output from these three networks is fused to get the final prediction about the characters written in air. AirScript can be used in highly sophisticated environments like a smart classroom, a smart factory or a smart laboratory, where it would enable people to annotate pieces of texts wherever they want without any reference surface. We have evaluated AirScript against various well-known learning models (HMM, KNN, SVM, etc.) on the data of 12 participants. Evaluation results show that the recognition module of AirScript largely outperforms all of these models by achieving an accuracy of 91.7% in a person independent evaluation and a 96.7% accuracy in a person dependent evaluation.

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Visual Patterns in the Plant Kingdom

Binsfeld

Gamboa

Walter

2011

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Fig. 1. Real (left) and virtual (right) Codiaeum Variegatum generated with our approach.Abstract-There has been a lot of progress in modeling and rendering elements of our Natural World for computer graphics tasks. In the Plant Kingdom, techniques for modeling the visual patterns presented in many natural objects (such as stripes on a watermelon) have advanced far less than methods for modeling the shape and reflectance properties of individual or large collections of elements (such as leaves and trees). In this paper we explore a procedural model for synthesis of many familiar visual patterns from the Plant Kingdom. Our results show that in this context a procedural model has advantages over other texturing techniques such as texture mapping and procedural noise, since these patterns are usually needed in great quantity, and at least for some plants, with many geometric variation, assigning consistent texture coordinates is a challenge. We show results for fruits, mushrooms, and small decorative plants.

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What Can the Eyes and the Brain Tell Us About Learning? The Role of Information Density in the Comprehension and Retrieval of Complex Concepts

Czernochowski

Gamboa

Allen

2019

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AirScript - Creating Documents in Air

Dash¹,

Sahu²,

Shringi³

et al. 2017

Preprint

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