Lucian Radu scite author profile

PurposeThis study aims to understand if an online dating app is considered an acceptable channel to conduct advertising activities and understand the differences between Generations X, Y and Z for such acceptance.Design/methodology/approachA total of 411 Tinder users’ reactions were obtained and analyzed using text mining to compute the sentiment score of each response, and a Kruskal–Wallis H test to verify if there are statistical differences between each generation.FindingsThe results showed positive acceptability toward the marketing campaign on Tinder, especially Z Generation. Nevertheless, the statistical analysis revealed that the differences between each generation are not statistically significant.Research limitations/implicationsThe main limitation relates to the fact that the participants, during the data collection, revealed their identification, perhaps leading to acquiescence bias. In addition, the study mainly covered the male population. A balanced sample would be positive to examine any possible differences between gender.Practical implicationsResults provide an essential indication for companies regarding their marketing activities conducted on Tinder to fully exploit the possibility of using Tinder as an alternative and valuable channel to conduct marketing activities.Originality/valueUp until now, no studies tried to understand the effect of a marketing activity online on an online dating app.

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Reliability of probabilistic numerical data for training machine learning algorithms to detect damage in bridges

Bud

Moldovan

Radu

et al. 2022

Structural Contr & Hlth

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Summary In structural health monitoring of bridges, machine learning algorithms for damage detection are typically trained using an unsupervised learning strategy, with data gathered from monitoring systems, and assuming the structures are undamaged and functioning under normal operational conditions during a certain period of time. However, the scarcity of information regarding the structural response under seasonal environmental variations and less frequent operational conditions makes the distinction between these undamaged states and damaged ones very challenging and may cause damage detection algorithms to yield false indications. To overcome this limitation, hybrid approaches for the training of machine learning algorithms have recently been proposed. Rather than relying exclusively on monitoring data, hybrid approaches use finite element models of the structure to generate numerical data for less frequent undamaged scenarios. The numerical data are used for the training of machine learning algorithms together with the monitoring data. This paper addresses the reliability of numerical data for the training of machine learning algorithms by quantifying the damage detection performance of an algorithm trained with numerical data only. Monitoring data are used only for the initial calibration of the finite element model, which does not need to be exceedingly detailed, as the probabilistic variation of the uncertain parameters is considered. The damage detection performance is quantified both in terms of quality (number of ill‐classified observations) and robustness to sub‐optimal choices of the training data and algorithmic parameters. A general procedure for the generation of model‐based data for the training of machine learning algorithms to detect damage is given and validated using the well‐known Z‐24 Bridge benchmark.

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Lucian Radu

A Bayesian approach based on a Markov-chain Monte Carlo method for damage detection under unknown sources of variability

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A Fast and Reliable State Estimation Algorithm for AEP's New Control Center

Online dating apps as a marketing channel: a generational approach

Reliability of probabilistic numerical data for training machine learning algorithms to detect damage in bridges

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