Remote Wireless Communications lab in real time

2013 IEEE Global Engineering Education Conference (EDUCON) Pub Date : 2013-03-13 DOI:10.1109/EduCon.2013.6530088

N. Kafadarova, N. Mileva, S. Stoyanova

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引用次数: 3

Abstract

The ongoing integration of telecommunications with the learning and collaboration process has enabled many of the engineering projects to take advantage of the remote access to laboratories that it allows. However, most of the remote laboratories today are simulated or else real, but with a fixed configuration. With the integration of telecommunication technologies and computer science with virtual instrumentation, real, remote laboratories can be developed and accessed through Internet in real time, ensuring a richer collaborative experience for the student while avoiding some of the growing limitations of traditional laboratories, such as the lack of enough work area, expensive instrumentation, lack of personnel, time assigned to a laboratory, and their availability in non-working office hours. In this paper, we present a method of creating a web-based Remote Laboratory Experimentation in the MSc course “Wireless Communications Systems” which is part of “Information and Communication Systems (ICS)” curriculum. This is done within the RIPLECS project (http://riplecs.dipseil.net/). The course “Wireless Communication Systems” gives students an overview of the characteristics of different types of antennas used in wireless communications and the wave propagation in mobile communications. The practical part consists of several assignments dealing with understanding the basic functions of the antennas as well as mobile communication propagation characteristics experiments. The proposed approach integrates a traditional Learning Management System (LMS) with the remote access to real instrumentation located in wireless communication laboratory, without requiring specific software components on the client side. The remote laboratory system relying on virtual instruments (VIs) is described in RIPLECS. This paper presents our performance support approach to the design of the wireless communications course in DIPSEIL system (env.dipseil.net/v3). There are listed the tasks and their educational objectives.

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实时远程无线通信实验室

电信与学习和协作过程的持续集成使许多工程项目能够利用它所允许的对实验室的远程访问。然而，今天的大多数远程实验室都是模拟的，或者是真实的，但是具有固定的配置。随着电信技术和计算机科学与虚拟仪器的融合，真实的远程实验室可以通过互联网实时开发和访问，确保学生获得更丰富的协作体验，同时避免了传统实验室日益增长的一些局限性，例如缺乏足够的工作区域，昂贵的仪器，缺乏人员，分配给实验室的时间，以及在非工作时间的可用性。在本文中，我们提出了一种在理学硕士课程“无线通信系统”中创建基于网络的远程实验室实验的方法，该课程是“信息与通信系统(ICS)”课程的一部分。这是在RIPLECS项目(http://riplecs.dipseil.net/)中完成的。“无线通信系统”课程让学生对无线通信中使用的不同类型天线的特性和移动通信中的波传播进行概述。实践部分包括对天线基本功能的理解和移动通信传播特性的实验。该方法将传统的学习管理系统(LMS)与位于无线通信实验室的实际仪器的远程访问集成在一起，而不需要在客户端使用特定的软件组件。在RIPLECS中描述了基于虚拟仪器(VIs)的远程实验室系统。本文提出了在dipsil系统(env.dipseil.net/v3)中设计无线通信课程的性能支持方法。有列出的任务和他们的教育目标。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2013 IEEE Global Engineering Education Conference (EDUCON)

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