Showing total 7 results

1. Solving Partial Least Squares Regression via Manifold Optimization Approaches.

Author

Chen, Haoran, Sun, Yanfeng, Gao, Junbin, Hu, Yongli, and Yin, Baocai

Subjects

MATHEMATICAL optimization, REGRESSION analysis, RIEMANNIAN manifolds

Abstract

Partial least squares regression (PLSR) has been a popular technique to explore the linear relationship between two data sets. However, all existing approaches often optimize a PLSR model in Euclidean space and take a successive strategy to calculate all the factors one by one for keeping the mutually orthogonal PLSR factors. Thus, a suboptimal solution is often generated. To overcome the shortcoming, this paper takes statistically inspired modification of PLSR (SIMPLSR) as a representative of PLSR, proposes a novel approach to transform SIMPLSR into optimization problems on Riemannian manifolds, and develops corresponding optimization algorithms. These algorithms can calculate all the PLSR factors simultaneously to avoid any suboptimal solutions. Moreover, we propose sparse SIMPLSR on Riemannian manifolds, which is simple and intuitive. A number of experiments on classification problems have demonstrated that the proposed models and algorithms can get lower classification error rates compared with other linear regression methods in Euclidean space. We have made the experimental code public at https://github.com/Haoran2014. [ABSTRACT FROM AUTHOR]

Published

2019

2. Correction.

Subjects

EDITORIAL boards

Published

2017

3. Plotting a Moore's law for flexible electronics [News].

Author

Courtland, Rachel

Subjects

ELECTRONICS, MOORE'S law, INDIUM gallium zinc oxide, THIN film transistors, METAL oxide semiconductor field

Abstract

At a meeting in mid-town Manhattan, Kris Myny picks up what looks like an ordinary paper business card and, with little fanfare, holds it to his smartphone. The details of the card appear almost immediately on the screen inside a custom app. [ABSTRACT FROM AUTHOR]

Published

2017

4. Category-Based Deep CCA for Fine-Grained Venue Discovery From Multimodal Data.

Author

Yu, Yi, Tang, Suhua, Aizawa, Kiyoharu, and Aizawa, Akiko

Subjects

ART & state, INDUSTRIAL location, TOURIST attractions, DEEP learning, IMAGE retrieval, CANONICAL correlation (Statistics)

Abstract

In this work, travel destinations and business locations are taken as venues. Discovering a venue by a photograph is very important for visual context-aware applications. Unfortunately, few efforts paid attention to complicated real images such as venue photographs generated by users. Our goal is fine-grained venue discovery from heterogeneous social multimodal data. To this end, we propose a novel deep learning model, category-based deep canonical correlation analysis. Given a photograph as input, this model performs: 1) exact venue search (find the venue where the photograph was taken) and 2) group venue search (find relevant venues that have the same category as the photograph), by the cross-modal correlation between the input photograph and textual description of venues. In this model, data in different modalities are projected to a same space via deep networks. Pairwise correlation (between different modality data from the same venue) for exact venue search and category-based correlation (between different modality data from different venues with the same category) for group venue search are jointly optimized. Because a photograph cannot fully reflect rich text description of a venue, the number of photographs per venue in the training phase is increased to capture more aspects of a venue. We build a new venue-aware multimodal data set by integrating Wikipedia featured articles and Foursquare venue photographs. Experimental results on this data set confirm the feasibility of the proposed method. Moreover, the evaluation over another publicly available data set confirms that the proposed method outperforms state of the arts for cross-modal retrieval between image and text. [ABSTRACT FROM AUTHOR]

Published

2019

5. How Purdue University Commercializes Its Research: Yung-Hsiang Lu helps turn research results into revenue.

Subjects

COMPUTER engineering, UNIVERSITY research

Abstract

For Yung-Hsiang Lu, improving the energy efficiency of computer technology to provide real-world benefits has been a lifelong focus. [ABSTRACT FROM AUTHOR]

Published

2022

6. Consorting with the enemy, R&D-wise.

Author

Marcus, Steven J.

Subjects

BUSINESS

Abstract

Discusses the significance of the National Institute of Standards and Technology's (NIST) Advanced Technology Program for would-be collaborators. Perils of printed-wiring boards (PWB); Consortia way of doing business; Information on competitive advantage. INSET: The growing Federal focus on grouping R&D projects.

Published

1998

7. Open Access.

Subjects

*ADVERTISING, *BUSINESS

Abstract

Advertisement: This publication offers open access options for authors. IEEE open access Publishing. [ABSTRACT FROM PUBLISHER]

Published

2012