Internet of things mobile E-Laboratory platform of embedded Web control terminal

A control terminal and embedded technology, applied in electrical components, transmission systems, etc., can solve the problems of high cost of remote networked experimental platforms, inconvenient scheduling of teaching experiments, and inability to effectively conduct course experiments, and achieve good convenience. , low power consumption, space saving effect

Inactive Publication Date: 2017-05-31
BEIJING INSTITUTE OF TECHNOLOGYGY
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0019] The purpose of the present invention is to solve the technical problems that the main factors such as the lack of experimental equipment resources in most colleges and universities, the high cost of the existing remote networked experimental platform, the simplification of the mode, and the inconvenient arrangement of the teaching experiment time lead to the inability to effectively carry out the course experiment. An IoT mobile E-Laboratory platform with an embedded web control terminal is proposed

Method used

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  • Internet of things mobile E-Laboratory platform of embedded Web control terminal
  • Internet of things mobile E-Laboratory platform of embedded Web control terminal
  • Internet of things mobile E-Laboratory platform of embedded Web control terminal

Examples

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Embodiment 1

[0077] This embodiment elaborates in detail the application of the Internet of Things mobile E-Laboratory platform of an embedded Web control terminal of the present invention in the remote networked control experiment using the Internet of Things mobile E-Laboratory platform system and the method of building an embedded EWC_T based on the LAMP architecture. The structure diagram and specific implementation methods of the "classroom and extracurricular integration" teaching in the classroom.

[0078] figure 1 It is a structural diagram of an Internet of Things mobile E-Laboratory platform of an embedded Web control terminal of the present invention.

[0079] From figure 1 It can be seen from the figure that the mobile E-Laboratory platform of the Internet of Things based on the embedded Web control terminal of the present invention and embodiments includes a sensing layer, a transmission network layer, and a service application layer; wherein, the sensing layer includes a con...

Embodiment 2

[0090] This embodiment elaborates in detail the flow chart of the Internet of Things mobile E-Laboratory platform of an embedded Web control terminal of the present invention, and a specific introduction of the adopted LAMP principle, and a specific introduction of the principle of local communication and network communication.

[0091] From figure 2 As can be seen from the figure, the flow chart of the Internet of Things mobile E-Laboratory platform of the embedded Web control terminal that the present invention and embodiments rely on includes the controlled object, Wi-Fi, RS485 serial communication bus, embedded Web control terminal EWC_T, TCP / IP protocol, HTTP protocol, Socket interface and client, wherein, the client includes PC end, tablet end and mobile phone end; from figure 2It can be seen that the controlled object is connected to the Wi-Fi or RS485 serial communication bus, and the Wi-Fi or RS485 serial communication bus is connected to the embedded Web control te...

Embodiment 3

[0110] This embodiment elaborates in detail the physical diagram of the Internet of Things mobile E-Laboratory platform of an embedded Web control terminal of the present invention that has been realized.

[0111] From Figure 5 As can be seen from the figure, the structural diagram of the Mobile Experiment system physical diagram on which the present invention and embodiments rely includes, the embedded control terminal EWC_T and the controlled object of the single mechanical arm; from Figure 5 It can be seen that the embedded control terminal EWC_T is connected with the controlled object of the single robotic arm to complete the local communication function between the controlled object and the embedded control terminal EWC_T.

[0112] This embodiment specifically explains that in the context of referring to the Mobile Experiment, the structure diagram of the physical diagram of the MobileExperiment system is designed, and the Figure 5 It can be seen that the embedded con...

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Abstract

An Internet of things mobile E-Laboratory platform of an embedded Web control terminal belongs to the Internet of things and intelligent teaching technology field. A Web framework of Linux+Apache+MySQL+PHP and a B/S and C/S mixing structure are adopted. A LAMP is transplanted to an ARM processor. Based on an Android operation system, an APP is exploited. A C/S model communication mode and an AChartEngine graphic base are adopted and a user is allowed to carry out a ''mobile experiment'' under a wireless network environment. In the invention, ''in-class and out-class integration teaching'' is realized, and limited laboratory resources are timely shared to more people in need so that the E-Laboratory platform possesses characteristics of low power consumption, low cost and good portability; network control of various kinds of experiment apparatuses can be realized; and in addition, updating, maintenance and usage are convenient, and a utilization rate of the laboratory resources is increased.

Description

technical field [0001] The present invention relates to an Internet of Things mobile E-Laboratory platform with an embedded Web control terminal, and in particular to a remote control experiment of "integration of class and extracurricular" teaching that can be conveniently logged in at the mobile terminal or web page using the "Internet of Things" technology The room belongs to the field of Internet of Things, smart campus and smart teaching. Background technique [0002] Research status of E-Laboratory platform: [0003] Research on the E-Laboratory platform has been carried out around the world. In 1999, Yasuhiro Ohyama of Tokyo University of Technology and others used a simple B / S model to build a prototype of a network experiment system. In 2001, David Lowe of Sydney University of Technology and others began to build Remote Laboratory for educational work, and it has been opened worldwide. In 2006, Dai Yaping of Beijing Institute of Technology built a remote control l...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H04L29/08
CPCH04L67/02H04L67/12
Inventor 戴亚平马俊杰杨国赛王园
Owner BEIJING INSTITUTE OF TECHNOLOGYGY
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