Citas bibligráficas
Solano, G., (2021). Diseño e implementación de una estación meteorológica con acceso a internet para lugares remotos [Tesis, Universidad de Ingeniería y Tecnología]. https://hdl.handle.net/20.500.12815/227
Solano, G., Diseño e implementación de una estación meteorológica con acceso a internet para lugares remotos [Tesis]. PE: Universidad de Ingeniería y Tecnología; 2021. https://hdl.handle.net/20.500.12815/227
@misc{renati/231212,
title = "Diseño e implementación de una estación meteorológica con acceso a internet para lugares remotos",
author = "Solano Becerra, Gustavo",
publisher = "Universidad de Ingeniería y Tecnología",
year = "2021"
}
Knowledge of meteorological data is important for better decision-making and consequently, being able to act as accurately as possible. There are various situations in which data collection generates benefits for communities in general, for example, monitoring natural disasters in intense winds, low temperatures and frosts that compromise the well-fare of humans, animals and crops. Using meteorological data, it is possible to carry out research that contributes to a better development of the place where the measurement is taken, such us, the contribution to studies to know about areas of greater use of wind and solar energy. Taking into account that the peruvian territory has 8 subclimates, many of these measurements are taken far away from the cities, in some cases these places have difficult access and in others there is no internet coverage. This creates a high demand for qualified personnel with the necessary tools to access to these remote places and perform manual measurements. In order to facilitate the work and accessibility of the records of the stations located in remote places, the present investigation proposes the design of an automatic meteorological station with access to Internet through wireless radio frequency communication, which allows access to the information acquired from any computer with an Internet connection. By making comparisons with research and market meteorological stations, this station seeks to solve the coverage problem and be able to be installed in places with difficult access, so it could make the measurements automatically. The system has 2 important pillars for its implementation, the design of the meteorological station and the wireless communication to access to the Internet. About the station design, this one makes measurements of temperature, humidity, wind speed and UVA/B radiation, then it sends the information wirelessly to a base station. This last one includes the second important pillar which transfers data to the Internet and shows the results in a friendly user interface. This process transmits vía radio frecuency the information obtained by the meteorological station with a minimum distancing of 1000 meters and then send the information to the Internet. In order to validate the work, distance tests were made without any lost of information and tests were made in comparison with standarized stations with error margins less than 5 % to each enviromental para meter. The process of validation is made by putting different variable values and obtaining the relative errors between the standarized station and the values obtained from the meteorological station, this values are presente in a user interface with all the data obtained.
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