Your search keyword '"Nan CHEN"' showing total 3 results

1. An analysis of gender discrimination in the context of media convergence of Spanish female journalists

Author

Nan Chen

Subjects

media convergence, gender discriminaition, female journalists, Communication. Mass media, P87-96

Abstract

In an era marked by rapid digitalization and the convergence of media platforms, gender equality, particularly within journalism, has gained prominence. However, gender discrimination remains a challenge for female journalists. This research collected 387 valid responses from Spanish media professionals through digital and other channels. Data analysis, including statistical methods like frequency analysis and chi-square tests, aims to uncover factors affecting the careers of Spanish female journalists. The goal is to provide empirically supported recommendations for gender equality in the dynamic Spanish media landscape.

Published

2024

2. Using a least squares support vector machine to estimate a local geometric geoid model

Author

Yu-Ting Shen, Chao-Nan Chen, Hui-Chi Huang, and Szu-Pyng Kao Kao

Subjects

Mathematical optimization, lcsh:QB275-343, Kernel Function, lcsh:Geodesy, Função de Kernel, lcsh:Geography. Anthropology. Recreation, lcsh:G1-922, Modelo de Geóide Local, Support vector machine, Local Geoid Model, lcsh:G, Polynomial kernel, Variable kernel density estimation, Least squares support vector machine, Geoid, Radial basis function kernel, Orthometric height, General Earth and Planetary Sciences, Radial basis function, Máquina de Vetor Suporte para Mínimos Quadrados, Algorithm, Least Squares Support Vector Machine (LS-SVM), lcsh:Geography (General), Mathematics

Abstract

In this study, test-region global positioning system (GPS) control points exhibiting known first-order orthometric heights were employed to obtain the points of plane coordinates and ellipsoidal heights by using the real-time GPS kinematic measurement method. Plane-fitting, second-order curve-surface fitting, back-propagation (BP) neural networks, and least-squares support vector machine (LS-SVM) calculation methods were employed. The study includes a discussion on data integrity and localization, changing reference-point quantities and distributions to obtain an optimal solution. Furthermore, the LS-SVM was combined with local geoidal-undulation models that were established by researching and analyzing3 kernel functions. The results indicated that the overall precision of the local geometric geoidal-undulation values calculated using the radial basis function (RBF) and third-order polynomial kernel function was optimal and the root mean square error (RMSE) was approximately ± 1.5 cm. These findings demonstrated that the LS-SVM provides a rapid and practical method for determining orthometric heights and should serve as a valuable academic reference regarding local geoid models. Este estudo empregou pontos de controle de GPS em regiões-teste com altitudes ortométricas de primeira ordem previamente conhecidas, para a obtenção de pontos de coordenadas planas e altitudes elipsoidais, com a utilização do método cinemático em tempo real (RTK). Este estudo aplicou o ajuste de superfície de primeira ordem, ajuste de superfície de segunda ordem, método da retropropagação para redes neurais e "support vector machine" por mínimos quadrados (LS-SVM). Integridade e localização de dados foram examinados, e a certa quantidade e distribuição de pontos de referência modificados para obtenção da solução ideal. O estudo contou também com o LS-SVM e com o modelo de altitude geoidal local que foi estabelecido usando 3 funções de Kernel para análises e pesquisas. Os resultados indicam que a precisão total dos valores calculados das ondulações geóidais geométricas locais usando a rede neural artificial e o polinômio de terceira-ordem da função de Kernel foram ideais com o valor quadrático médio de aproximadamente ± 1.5 cm. O resultado mostrou que o SVM oferece o método rápido e prático para obtenção de altitudes ortométricas e provê a pesquisa acadêmica de referência para modelos geoidais locais.

3. Do Uso do Método de Otimização por Exame de Partículas para Estimar um Modelo Local do Geoide Geométrico

Author

Chao-Nan Chen, Szu-Pyng Kao, Fang-Shii Ning, and Chia-Ling Chen

Subjects

010504 meteorology & atmospheric sciences, GPS, lcsh:Geodesy, 0211 other engineering and technologies, lcsh:G1-922, Otimização por Enxame de Partículas (PSO), Quadratic surface fitting, 02 engineering and technology, 01 natural sciences, Ellipsoidal height, Quadratic equation, Geoid, Undulation of the geoid, 021101 geological & geomatics engineering, 0105 earth and related environmental sciences, lcsh:QB275-343, Levelling, business.industry, lcsh:Geography. Anthropology. Recreation, Particle swarm optimization, Geodesy, Ellipsoid, Orthometric height, lcsh:G, Particle swarm optimization (PSO), Global Positioning System, General Earth and Planetary Sciences, Geoide geométrico local, business, Geology, lcsh:Geography (General)

Abstract

There exist a number of methods for approximating the local geoid surface and studies carried out to determine a local geoid. In this study, performance of geoid by PSO method in modeling local geoid was presented and analyzed. The ellipsoidal heights (h), derived from GPS observations, and known orthometric heights from first-order benchmarks were first used to create local geometric geoid model, then the PSO method was used to convert ellipsoidal heights into orthometric heights (H). The resulting values were used to compare between the spirit leveling and GPS methods. The adopted PSO method can improve the fitting of local geometric geoid by quadratic surface fitting method, which agrees with the known orthometric heights within ±1.02cm Existe uma série de métodos para aproximar a superfície do geoide local bem como vários estudos conduzidos para determinar um geoide local. Neste estudo, apresentou-se e analisou-se o desempenho do geoide pelo método de otimização por exame de partículas (PSO, do inglês Particle Swarm Optimization) na modelagem do geoide local. As altitudes elipsoidais (h), derivada de observações GPS, e altitudes ortométricas de referências de nível de primeira ordem foram usados para criar um modelo do geoide geométrica local, na sequencia usou-se o método PSO para converter altitudes elipsoidais em altitudes ortométricas (H). Os valores estimados foram comparados com valores provenientes de nivelamento geométrico e levantamento GPS. O método PSO foi capaz de melhorar a adaptação do geoide local pelo método de ajustamento de superfície quadrática e apresentou diferenças da ordem de ±1,02 cm em relação a altitudes ortométricas observadas