Precision viticulture is a specialization of precision agriculture techniques applied to viticulture. Precision agriculture is the use of information system technologies applied to agricultural production. Some of the applicable technologies are; Wireless Sensor Networks (WSN), Global Positioning Systems (GPS), spectroscopy analysis of Near-Infrared (NIR), Geographic Information Systems (GIS). These systems provide means of observation, evaluation and control of agricultural activities. The farmers demand assistant systems to perform actions for saving time and avoiding risks. There are studies of maps crops and mesh-sampling techniques to predict the harvest volume in a vineyard with a certain varieties of grapes. The prediction is based on a previous study of crops over a period of three to four years. Along these three or four years a large volume of samples is taken to study several parameters. In this application area is where the wireless sensor networks technologies would have high incidence. In this context we intend to analyse, at first place, the specific characteristics of the operational environment of a vineyard. Second, we will analyse the most appropriate architecture for a sensor network in this environment. Application of wireless sensor networks technology can take many forms depending of environment, and implementation objectives. In this paper we discuss about the best procedure for deployment and the optimal topology of a wireless sensor network for viticulture.
his project is part of the FlowNet initiative.
FlowNet aims at providing Internet freedom and free flow
information through socially informed, censor resistant online
social networks. My contribution for FLowNet is in devel-
oping an Android application, SecurePost. The requirement
for SecurePost is two-fold. First, the system should facilitate
secure, anonymous, group communication within a closed
group of trusted members. Second, the general public on the
Internet viewing this content, should be able to verify that the
content was generated only by the said closed group of trusted
members. The system consists of an Android client application,
a proxy server and a browser-plugin. The OSNs supported by
this system are Twitter and Facebook.
Created using the Deedy - One Page Two Column Resume from LaTeX Template, Version 1.1 (30/4/2014).
Debarghya Das (http://debarghyadas.com)
En este trabajo se implementaron diferentes topologías de circuitos rectificadores, profundizando en el concepto de factor de potencia, evaluando el factor de potencia en las diferentes topologías utilizando ecuaciones matemáticas y simulaciones por software de computadora (TINA). Concluyendo que el circuito rectificador con uso del convertidor Boost, mejora la distorsión armónica total con respecto a las otras topologías evaluadas, siendo el aporte de la armónica fundamental mayor que las otras armónicas, obteniendo una corrección en el factor de potencia.
This is a template for IEEE Conference paper. It has been modified to simplify the structure of the paper. Some basic commands has been given inside for newbies. It will be updated with more handy commands.
Created using the Deedy CV/Resume XeLaTeX Template
Version 1.0 (5/5/2014)
This template has been downloaded from:
Debarghya Das (http://www.debarghyadas.com)
With extensive modifications by:
In this sample paper, we describe the formatting requirements for content for the STAR assignment for the Introduction to Computer Graphics class, Fall 2015. Please fill this section with the abstract. This template is based on the SIGGRAPH proceedings template and the following sections will contain dummy sections and text which you can edit. Use Overleaf to collaborate and keep track of your document.