VirtuLab: Web Based Flow Visualization Facility Final Presentation Team 6 Members: Justin Scott...

VirtuLab: Web Based Flow Visualization Facility

Final PresentationTeam 6 Members:

Justin Scott

Karen Davis

Sydni Credle

Mentor/Client: Professor:Dr. Shih Dr.Luongo

April 12, 2001

Overview

Objective/Client Statement Background Information WBS and Scheduling Camera Mount Design LabVIEW 6.i

Contingency Plan Live Video Configuration VirtuLab Demonstration Conclusion Acknowledgements

Objectives/Client Statement

Design and build a towing tank facility and the associated imaging process.

Provide visualization enhanced information to supplement the teaching of fluid mechanics.

Create computer interfaced instrument control for remote operation via the Internet.

Background Information

A “fluid” is a substance that readily flows under applied shear (gases, liquids i.e. water, alcohol, gasoline).

Fluids can’t be detected by the human eye, therefore, the concepts behind fluid mechanics prove to be very difficult to learn.

Use of flow visualization to take out the guess work from the phenomena.

Introduction

Learning/teaching Thermal Fluids is complex.

Distance learning purposes

Pre-lab student aid

Master each component separately

Move at own pace

Goals for the Spring Semester

Web Page Design Incorporate LabVIEW

programming into design Embed live video streaming Background and procedure for

experiment Upload class deliverables for public

use

Spring Semester Goals (continued)

LabVIEW Acquire LabVIEW version 6.i Train team members to use 6.i Final experiment interface design

(educational module) Consolidate motor controller

functions into one program Control via the Internet

Spring Semester Goals (continued)

Existing Experiment Set-up Preliminary test of system Performance Analysis Design Modifications Calibration Final Testing

Work Breakdown Structure

Project Management Activities Refinement of Client Statement Web Camera Imaging Camera Mount LabVIEW - Motor Controller Simulation/Testing Web Page Publishing

Work Breakdown Structure (WBS)

(WBFVF) Web-Based Flow Visualization Facility

Project Schedule

Camera Mount Design Needs

Easily manufactured Cost efficient Lightweight Easily used

Camera Mount Design Needs (Continued)

Capable of supporting camera Appearance uniform with existing equipment Locking mechanism Long lasting

Existing Camera Mount

Camera Mount LocationAdjustable Pole

Detailed Designs: 1st Plate and Slider

Detailed Designs: 2nd Plate and Slider

Camera Mount (continued)

Finished Camera Mount

Machined and Assembled by Will Kincannon and Kevin Pittman

Camera Mount: View #2

Internet

PersonalComputer

Motor Controller

FlowVisualization

Facility

VisualizationCamera

WebCamFor Lab Video

Image streaming

LabView InternetConnectivity Toolset

Client Client Client

Schematic diagram illustrating basic setup of web-based flow visualization system.

System Set-up

Remote Users

Physical Laboratory

(motor controller)

LabVIEW Interface

System Configuration

Motor Controller

Camera mount locationTowing Tank

Motor

Web Cam Location

What is LabVIEW?

Laboratory Virtual Instrument Engineering Workbench

Automation and Control of Equipment “G-programming”

Creation of programs using graphics Pictorial Block Diagrams instead of long lines

of syntax Straightforward data flow methodology

LabVIEW 6.i Basics

LabVIEW Diagram

Local Variable

Global Variable

Local and Global Variables

Local variables pass information between applications within the same VI that cannot be wired.

Global variables are similar to local variables, except that information can be passed among several VIs.

Figure (left), shows the VI that contains all of the Booleans and radio buttons that were used in all of the programs.

Location of All Global Variables

LabVIEW Diagram with CGI Scripts

LabVIEW Diagram (continued)

This CGI contains the environment and the content from the client.

Sends the response back to the client to the specified web browser.

Frees the resources associated with this specific subVI

LabVIEW Troubleshooting

Published front panel would not appear from web browser.

LabVIEW program must be open

HTTP server must be running

LabVIEW Troubleshooting

LabVIEW programs would not run consistently

Consolidated all of the global variables into one VI (virtual instruments)

Tried different wiring configuration

Changed global variables from read to write

Made Booleans and globals constants

LabVIEW Troubleshooting (cont’d)

Testing the VIs with radio buttons in on and off within the specific VI and in myglobal2.vi

Attempted to consolidate the functions within a VI into various subVIs (sub program)

Tried to use the subVI’s contents instead of the actual subVI

LabVIEW Troubleshooting (cont’d)

Used different formatting within the command string to the motor controller (i.e. commas, slashes, clears, as well as returns)

Major Road Blocks

Consistency Problems Heavy Usage

Equipment Access Surpassing Technical Support Knowledge

Cutting Edge Application of LabVIEW Technology

As complexity increased, the amount of viable help decreased

Contingency Plan for the Future

Allocate one PC machine as dedicated workstation Create a “controlled” environment

Implement Security System

Computer Related Aspects

Remote instrument control via the Internet using LabVIEW programming

Video studio design for the lab imaging Real time video and data streaming via the

Internet

Live Video

Enables students participating in the lab to view the flow visualization experiment

The students have video control in real time

Steps Taken

Creation of initial web page Embedding live video window and controls Setting up web cam Installing and configuring RealProducer Basic on

experiment computer Setting up link to RealServer on COE server

Creation of Initial Web Page

Embedding Live Video Window and Controls

VirtuLab Demonstration

http://www.eng.fsu.edu/~jwscott/projectpage.htm

Conclusion

Fulfilled all main objectives stated at the onset

The interactive portion of the experiment via the web has been developed and is ready for use

Applied principles from the Mechanical Design Process

Conclusion (continued)

Success even through many road blocks and many barriers.

Great team dynamic. Acquired skills that can be used in future

endeavors.

Acknowledgements

Dr. Shih Dr. Luongo Bill Kinkannon, Kevin Pittman and Crew LabVIEW Technical Support

Jason Hobbs COE WebMasters

Drew Kokur Dr. Van Dommelon