Gallery — Conference Paper

Foram feitas algumas modifiçãoes para adequar ao Workshop Brasileiro de Micrometeorologia de 2022. A versão original de autoria de Franciano Puhales pode ser encontrada em https://www.overleaf.com/latex/templates/x-workshop-brasileiro-de-micrometeorologia/zfhfdqdkszjw

Paper Preparation Guide and Submission Instructions for Building Simulation and Optimisation Conference 2022

This is the template for submissions of papers to the 18th Australasian International Conference on Speech Science and Technology, hosted by the Australasian Speech Science and Technology Association (ASSTA) and the Australian National University in Canberra, Australia in December 2022. Full papers must have a maximum length of 4 pages for the main content, but acknowledgements and references for full papers can continue onto a 5th page. This template is current for SST2022; for any future SST conferences, please check the details provided by the organisers of that event. For more information, see www.sst20222.com and www.assta.org.

This template can be used for submissions to the PsyTec 2023 conference, which will take place at February 15th at the Technical University of Darmstadt.

Template do ENATI 2022.

Follow-up from the 2018 template, more generic

This is the paper template for the Euroregio Baltic Nordic Acoustic Meeting 2022, to be held in Aalborg, Denmark from 9th-11th of May 2022. The template uses the XeLaTeX compiler.

Template for the ESPERANTO H2020 MSCA RISE Project

As LED systems have been evolving today in a great number of niche applications including automotive lighting, water purification, and skin imaging etc., extensive studies of scientists and engineers in the field have been constantly looking for ways to reduce generated heat loads and maximize the light output to reach the highest efficiency ratios. While the current systems developed over the last years achieved to reach even a 40% LED light efficiency, a higher portion of the electrical input energy of LEDs is still produced as heat and it hinders their development potential. In addition, the compact size of the LED systems poses some challenges to the reliable characterization of their performance at low uncertainties. Especially, the performance considerations associated with thermal loads over a limited size of LED chips require the effective characterization of these systems for various operational conditions. One of the techniques used for this purpose is that an LED package is characterized by a decrease in forward voltage with increasing junction temperature. As LEDs are operated at higher junction temperatures, the amount and quality of the light deteriorates significantly, and the less efficient use of the LEDs results in additional operating costs and reduced lifetime of LEDs. In fact, accurate identification of thermal behavior of LED packages is one of the essential tasks towards improving the design of LED systems. If thermal characterization of LEDs is accurately done, performance parameters of LED packages are more reliably optimized to yield the highest possible performance ratios. Thus, this study focused on the design and manufacturing of a thermally improved and fully operational rapid temperature controllable chamber in which calibration and test phases of junction temperature measurements are sensitively conducted under a low uncertainty.