Abstract
The aim of this paper is to present a remote experience on light emitting diodes programmed in practical works of optoelectronic devices available online course of electronic department of University Constantine 1 (UC1). This course is one of three online courses proposed among contributions of UC1 in e-Sience Tempus project. 
 “Optoelectronic components” is an e-course dedicated to students from “master electronic” training. This e-course will be implemented in UC1’s Moodle LMS (learning management system) platform. Its objective is to introduce and consolidated students’ knowledge in optoelectronic devices used in optical transmissions. 
 LED’s experiment is one of the practical works proposed to be implemented in the remote laboratory of UC1. The remote e-courses and experiments are in progress and will be available on-line since October 2015.
Highlights
For many years, the universities and technical colleges have made progress in the way of delivering education
To convert proposed practical work to remote experiments we will use modern computers, network technology and the University Constantine 1 (UC1)-iLab, which is under construction
We have presented a learning environment for an optoelectronic e-course developed at UC1 as a contribution to the eSience Tempus project
Summary
The universities and technical colleges have made progress in the way of delivering education. The platform completes a system that provides continuous access to the same experiments remotely via the Internet and enables users to carry out experiments without being near the equipment [5, 6] This allows the use of only one experimental setup by a great number of users, which reduces the practical work costs. Progress in the fields of optoelectronics and photo-electricity has led to the marketing of components used extensively in industry, including Light-Emitting Diodes or LEDs. Practical work on light-emitting diodes is designed to familiarize students with the different characteristics of a light emitting diode and to allow them to see the links between the electrical, optical and physical parameters of LEDs. The objective of this work is to present an “Optoelectronic devices” unit that includes theoretical and tutorial sessions starting with one remote experiment on light emitting diodes.
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