Cloud-Based Machine Learning Tools for Enhanced Big Data Applications

Cuzzocrea, Alfredo; Mumolo, Enzo; Corona, Pietro

doi:10.1109/ccgrid.2015.170

Cited by 3 publications

(2 citation statements)

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“…Machine learning can be implemented in parallelization systems such as Hadoop and Cloud, in order to perform big data mining. Dai and Ji (Dai and Ji 2014) and He et al (He et al 2013) implemented Hadoop for parallel decision trees and regression; Cuzzocrea et al (Cuzzocrea, Mumolo, and Corona 2015) developed a Cloud-based machine learning tool to predict future data. These parallelization techniques improved the efficiency and the reliability of big data mining (Wu et al 2014) and have the potential to be implemented in machine learning for affective design involving huge amounts of affective data.…”

Section: Parallel Implementationmentioning

confidence: 99%

“…Cybernetic security: An effective data management toolkit is essential to be develop to leverage big data from streaming database systems (Condie, Mineiro, Polyzotis, & Weimer, 2013); Large computational demand: Processing tons of affective data in a faster speed is challenging. An effective parallelization system has to be developed (Cuzzocrea, Mumolo, & Corona, 2015); Algorithmic development: Implementation of machine learning for affective data is challenging. Despite text data, big data is involved with multichannel captures, which is huge in amount and large dimensions (Olvera-López, Carrasco-Ochoa, Martínez-Trinidad, & Kittler, 2010); Data transmission: high transmission is required as the data size is huge and data dimension is large.…”

Section: Big Datamentioning

confidence: 99%

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Affective design using machine learning: a survey and its prospect of conjoining big data

Chan

Kwong

Clark

et al. 2018

International Journal of Computer Integrated Manufacturing

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Customer satisfaction in purchasing new products is an important issue that needs to be addressed in today's competitive markets. Consumers not only need to be solely satisfied with the functional requirements of a product, and they are also concerned with the affective needs and aesthetic appreciation of the product. A product with good affective design excites consumer emotional feelings so as to buy the product. However, affective design often involves complex and multi-dimensional problems for modelling and maximising affective satisfaction of customers. Machine learning is commonly used to model and maximise the affective satisfaction, since it is effective in modelling nonlinear patterns when numerical data relevant to the patterns is available. This article presents a survey of commonly used machine learning approaches for affective design when two data streams namely traditional survey data and modern big data are used. A classification of machine learning technologies is first provided which is developed using traditional survey data for affective design. The limitations and advantages of each machine learning technology are also discussed and we summarize the uses of machine learning technologies for affective design. This review article is useful for those who use machine learning technologies for affective design. The limitations of using traditional survey data are then discussed which is time consuming to collect and cannot fully cover all the affective domains for product development. Nowadays, big data related to affective design can be captured from social media. The prospects and challenges in using big data are discussed so as to enhance affective design, in which very limited research has so far been attempted. This article provides guidelines for researchers who are interested in exploring big data and machine learning technologies for affective design.

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Section: Parallel Implementationmentioning

confidence: 99%

Section: Big Datamentioning

confidence: 99%