Authors :
Yassine Larbaoui; Ahmed Naddami; Ahmed Fahli
Volume/Issue :
Volume 5 - 2020, Issue 7 - July
Google Scholar :
http://bitly.ws/9nMw
Scribd :
https://bit.ly/3fcEz9w
DOI :
10.38124/IJISRT20JUL187
Abstract :
This paper presents the work of adapting
hands-on laboratory’s materials of NI Elvis and
Quanser from in-poste exploit to online access and
remote exploit for online experimenting, after analyzing
different aspects of adapting any hands-on laboratory’s
material of in-place experimenting to remote exploit.
This paper presents the work of developing a software
multiplexing technique, and other techniques, to
multiplex between different software codes and
programs, in order to control different types of
experiments in electronic of energy while using and
sharing the same physical components and materials
nearly simultaneously. In addition, this paper presents
the work of creating web client interfaces; to use those
embedded systems of NI Elvis and Quanser and their
deployed experiments through the internet while relying
on an e-learning platform of our remote lab to support
their remote access. The principal advantage of
conducted adaptations is sharing the same hardware
and software resources between different experiments
at the same time, while exploiting them locally and
through the internet by multiusers.
Keywords :
Circuits experimenting; e-learning; embedded systems; experiments switching; software switching; remote experiments.
This paper presents the work of adapting
hands-on laboratory’s materials of NI Elvis and
Quanser from in-poste exploit to online access and
remote exploit for online experimenting, after analyzing
different aspects of adapting any hands-on laboratory’s
material of in-place experimenting to remote exploit.
This paper presents the work of developing a software
multiplexing technique, and other techniques, to
multiplex between different software codes and
programs, in order to control different types of
experiments in electronic of energy while using and
sharing the same physical components and materials
nearly simultaneously. In addition, this paper presents
the work of creating web client interfaces; to use those
embedded systems of NI Elvis and Quanser and their
deployed experiments through the internet while relying
on an e-learning platform of our remote lab to support
their remote access. The principal advantage of
conducted adaptations is sharing the same hardware
and software resources between different experiments
at the same time, while exploiting them locally and
through the internet by multiusers.
Keywords :
Circuits experimenting; e-learning; embedded systems; experiments switching; software switching; remote experiments.