PRESENTED BY SIDDHESH JADHAV (B8654220) SWAPNIL JAGADE (B8654221) ANIKET KARHADKAR (B8654223) BHAVIK KIRI (B8654225) PROJECT GUIDE: MR Y.R. KULKARNI Mobile Virtual Network Classroom
P R E S E N T E D B Y
S I D D H E S H J A D H A V ( B 8 6 5 4 2 2 0 )
S W A P N I L J A G A D E ( B 8 6 5 4 2 2 1 )
A N I K E T K A R H A D K A R ( B 8 6 5 4 2 2 3 )
B H A V I K K I R I ( B 8 6 5 4 2 2 5 )
P R O J E C T G U I D E :
M R Y . R . K U L K A R N I
Mobile Virtual Network
Classroom
Overview
Introduction
What Is Virtual Network classroom ?
Existing Virtual classrooms on Desktop.
What Is M-Learning System ?
Literature Survey
IEEE Paper Overview
System Architecture
Technical Details
Advantages
Limitations
Conclusion
What Is Virtual Network classroom ?
Just as the term “Virtual” means a simulation of the
real thing, “Virtual Classroom” is a simulated
classroom via Internet.
It provides a convenient communication
environment for distance learners just like
traditional face-to-face classroom.
Allows learners to attend a class from anywhere in
the world .
Existing virtual classrooms on Desktop
HP
Attendance List
Chatting (Public & Private)
Print and Save
IBM Lotus
Real Time Audio & Video
Breakout sessions
Session recording
Elluminate Live Virtual Classroom
Whiteboard
Participant Information
Polls
Mobile Virtual Network Classroom
Also Known as M-Learning System.
Enables to bring learners from around the world together online in highly interactive virtual classes.
The M-learning system aims to provide venues for interactive and active learning.
It Addresses the entire process of creating and managing teacher-learning process.
M-learning Research has demonstrated that active and interactive learning techniques help learners acquire knowledge, develop critical thinking skills, solve problems in a variety of situations and think independently.
Mobile Virtual Network classroom
Mobility
Real Time
Interactive
Virtualization
Digitization
Individualization
Literature survey
Information Gathering
IEEE Papers Overview
Critiques
Protocol Study
RTP (Real-time Transport Protocol)
RTCP (Real-time Control Protocol)
RTSP (Real-time Streaming Protocol)
SDP (Session Description Protocol)
IEEE Papers Overview
The Impact of Mobile learning on Students learning Behaviors' and performance.
Dynamic Resource Allocation(DRA)on Traffic Prediction for video stream.
Simplified Seasonal ARIMA model(SAM)
Video Gateway to support video streaming on mobile.
System Architecture layers
Streaming And Encoding layer Live Recording
Recording and Feedback
Broadcasting & Management Server : Management Layer
Broadcasting Layer
Database
Client Side : Android supported Mobile
Streaming And Encoding
Broadcasting & Management Server
Client Side
System Architecture
Technical Details
Android Enabled mobiles.
High-speed internet links(GPRS N/W).
UML Diagram
Use Case Diagram
Administrator Use Case
Class Diagram
Proposed Design
System Features
Uniform access to all teaching materials at one
place 24 hours a day and 7 days per week.
SMS Alert
Real Time Audio & Video
Print and Save Feature
Whiteboard
Polling Facility
Web Links
Software & Hardware Interface
Software Interfaces
Operating System: Android O.S 2.2/2.3
Application Libraries : JAVA
Android SDK & Eclipse
Hardware Interface
Processor: Pentium IV
Memory(RAM):512/256 MB RAM
Limitations
Enhanced Technical Requirement
Internet Speed(54-114Kbps)
Limited Instructor assistance
All Subjects can not be taught online (like Lab
Works)
Conclusion
Good speed and way of learning according to needs and capabilities.
Focus shifted from ‘mobility of technology’ to the ‘mobility of the learner’.
Activities occurring in a real classroom are synthesized onto the mobile phones and are then played back in real time.
Anytime – anywhere
Distance learning can be managed.
THANK YOU