Generating Synthetic Discrete Datasets with Machine Learning

Giuseppe Manco; Ettore Ritacco; Antonino Rullo; Domenico Saccà; Edoardo Serra

Generating Synthetic Discrete Datasets with Machine Learning

Giuseppe Manco, Ettore Ritacco, Antonino Rullo, Domenico Saccà, Edoardo Serra

Computer Science Department

Research output: Chapter in Book/Report/Conference proceeding › Chapter

Abstract

The real data are not always available/accessible/sufficient or in many cases they are incomplete and lacking in semantic content necessary to the definition of optimization processes. In this paper we discuss about the synthetic data generation under two different perspectives. The core common idea is to analyze a limited set of real data to learn the main patterns that characterize them and exploit this knowledge to generate brand new data. The first perspective is constraint-based generation and consists in generating a synthetic dataset satisfying given support constraints on the real frequent patterns. The second one is based on probabilistic generative modeling and considers the synthetic generation as a sampling process from a parametric distribution learned on the real data, typically encoded as a neural network (e.g. Variational Autoencoders, Generative Adversarial Networks).

Original language	American English
Title of host publication	CEUR Workshop Proceedings
State	Published - 1 Jan 2022

Keywords

Generative Adversarial Networks
Inverse Frequent Itemset Mining
Variational Autoencoder
constraints-based models
data generation
generative models
synthetic dataset

EGS Disciplines

Computer Sciences

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title = "Generating Synthetic Discrete Datasets with Machine Learning",

abstract = " The real data are not always available/accessible/sufficient or in many cases they are incomplete and lacking in semantic content necessary to the definition of optimization processes. In this paper we discuss about the synthetic data generation under two different perspectives. The core common idea is to analyze a limited set of real data to learn the main patterns that characterize them and exploit this knowledge to generate brand new data. The first perspective is constraint-based generation and consists in generating a synthetic dataset satisfying given support constraints on the real frequent patterns. The second one is based on probabilistic generative modeling and considers the synthetic generation as a sampling process from a parametric distribution learned on the real data, typically encoded as a neural network (e.g. Variational Autoencoders, Generative Adversarial Networks).",

keywords = "Generative Adversarial Networks, Inverse Frequent Itemset Mining, Variational Autoencoder, constraints-based models, data generation, generative models, synthetic dataset",

author = "Giuseppe Manco and Ettore Ritacco and Antonino Rullo and Domenico Sacc{\`a} and Edoardo Serra",

note = "Manco, Giuseppe; Ritacco, Ettore; Rullo, Antonino; Sacc{\`a}, Domenico; and Serra, Edoardo. (2022). {"}Generating Synthetic Discrete Datasets with Machine Learning{"}. CEUR Workshop Proceedings, 3194, 341-350.",

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booktitle = "CEUR Workshop Proceedings",

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TY - CHAP

T1 - Generating Synthetic Discrete Datasets with Machine Learning

AU - Manco, Giuseppe

AU - Ritacco, Ettore

AU - Rullo, Antonino

AU - Saccà, Domenico

AU - Serra, Edoardo

N1 - Manco, Giuseppe; Ritacco, Ettore; Rullo, Antonino; Saccà, Domenico; and Serra, Edoardo. (2022). "Generating Synthetic Discrete Datasets with Machine Learning". CEUR Workshop Proceedings, 3194, 341-350.

PY - 2022/1/1

Y1 - 2022/1/1

N2 - The real data are not always available/accessible/sufficient or in many cases they are incomplete and lacking in semantic content necessary to the definition of optimization processes. In this paper we discuss about the synthetic data generation under two different perspectives. The core common idea is to analyze a limited set of real data to learn the main patterns that characterize them and exploit this knowledge to generate brand new data. The first perspective is constraint-based generation and consists in generating a synthetic dataset satisfying given support constraints on the real frequent patterns. The second one is based on probabilistic generative modeling and considers the synthetic generation as a sampling process from a parametric distribution learned on the real data, typically encoded as a neural network (e.g. Variational Autoencoders, Generative Adversarial Networks).

AB - The real data are not always available/accessible/sufficient or in many cases they are incomplete and lacking in semantic content necessary to the definition of optimization processes. In this paper we discuss about the synthetic data generation under two different perspectives. The core common idea is to analyze a limited set of real data to learn the main patterns that characterize them and exploit this knowledge to generate brand new data. The first perspective is constraint-based generation and consists in generating a synthetic dataset satisfying given support constraints on the real frequent patterns. The second one is based on probabilistic generative modeling and considers the synthetic generation as a sampling process from a parametric distribution learned on the real data, typically encoded as a neural network (e.g. Variational Autoencoders, Generative Adversarial Networks).

KW - Generative Adversarial Networks

KW - Inverse Frequent Itemset Mining

KW - Variational Autoencoder

KW - constraints-based models

KW - data generation

KW - generative models

KW - synthetic dataset

UR - https://scholarworks.boisestate.edu/cs_facpubs/340

M3 - Chapter

BT - CEUR Workshop Proceedings

ER -

Generating Synthetic Discrete Datasets with Machine Learning

Abstract

Keywords

EGS Disciplines

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