1 / 48

Comparing a Video Projector and an Inter-PC Screen Broadcasting System in a Computer Laboratory

Comparing a Video Projector and an Inter-PC Screen Broadcasting System in a Computer Laboratory. Takashi Yamanoue, Koichi Shimozono, Kentaro Oda Kagoshima University. Contents. INTRODUCTION OUTLINE OF THE USABILITY TESTING OUTLINE OF SOLAR-CATS THE EXPERIMENT AND ITS RESULT EXPERIENCES

jada
Download Presentation

Comparing a Video Projector and an Inter-PC Screen Broadcasting System in a Computer Laboratory

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Comparing a Video Projector and an Inter-PC Screen Broadcasting System in a Computer Laboratory Takashi Yamanoue, Koichi Shimozono, Kentaro Oda Kagoshima University

  2. Contents • INTRODUCTION • OUTLINE OF THE USABILITY TESTING • OUTLINE OF SOLAR-CATS • THE EXPERIMENT AND ITS RESULT • EXPERIENCES • RELATED WORKS • CONCLUDING REMARKS

  3. 1. INTRODUCTION • Presentation tools in a Computer Lab. Video projectors Inter-PC screen broadcasting systems … • When designing the Lab, What kind of ? How many • We would like to have some benchmarks of presentation tools.

  4. Experimental benchmark • A Usability testing procedure • Compared cognitive effects on users • A video projector • An inter-PC screen broadcasting system • Quantitative results • of presentation tools' cognitive effects on users' cognition ability.

  5. The usability testing • Repeat • A sample text -> Subjects, using a target tool • Subjects type • Record Typing speed and its accuracy

  6. SOLAR-CATS • A computer assisted teaching tool • The text editor • User activity recorder

  7. The result • The projector was better • if there was small amount of data on one screen • The screen broadcasting system was better • if there was a large amount of data on one screen.

  8. 2. OUTLINE OF THE USABILITY TESTING • A way of measuring effects of target presentation tools • collect the results of tests on cognition of subjects (who are supposed to be the audience or students) • after the same materials were shown • (to the subjects) • in the same environments • using such different target tools.

  9. It is not a fair comparison • to show the same materials • to the same subject using a target tool • after showing the same material to the same subject using another target tool • because the subject can remember the material previously shown.

  10. A solution • The sample text 1 of difficulty 1-> Subjects(1,2,…n) • using the target tool 1 • Subjects type • Record Typing speed and its accuracy • The sample text 2 of difficulty 1-> Subjects(1,2,…n) • using the target tool 2 • Subjects type • Record Typing speed and its accuracy • … • つぎの手順をわかりやすく…

  11. • The sample text k of difficulty l-> Subjects(1,2,…n) • using the target tool j • Subjects type • Record Typing speed and its accuracy • The sample text k+1 of difficulty l-> Subjects(1,2,…n) • using the target tool j+1 • Subjects type • Record Typing speed and its accuracy • …

  12. Typing speed and its accuracy • Effect • on the subject Mi • showing the k th sample text Lj,k,lof difficulty l • Using the target tool j • E(Mi,Lj,k,l) or • Result Ri,j,k,l (=E(Mi,Lj,k,l))

  13. for(l=1; l<s; l++){ • for(k=1; k<r; k++){ • for(j=1; j<m; j++){ • Show the material Lj,k,l using the tool Tj to the set of subjects A={M1, …, Mn}; • All of subjects test for cognition of Lj,k,l; • Collect Ri,j,k,l (=E(Mi,Lj,k,l));} •   Rest-1, a term of rest; • } • Rest-2, a term of rest; • }

  14. Information conductivity • To the i th subject • From the j th target tool • Of the k th sample text of difficulty l • How fast and how precise the i-th subject typed the Lj,k,l when j-th tool is used. • Ri,j,k,l

  15. Multiplication of • Average speed of typing of the sample text • Precision (1- Error rate) • Ri,j,k,l=Avi,j,k,l(1-Aerri,j,k,l) • Letters/second

  16. R*,j,*,l • The average values of Ri,j,k,l in the experiment • Where j-th target tool is used and • The materials were l-th difficulty.

  17. 3. OUTLINE OF SOLAR-CATS • A WYSIWIS (What You See Is What I See) • Enables sharing real-time operation of • Applications • text editor • draw • a simple programming environment • web browser • writer’s assistant , … • All equipped with SOLAR-CATS.

  18. Consists of • node systems (nodes) • a group manager. • Each node system • Applications • A main controller • A command transceiver • An event recorder/player

  19. Group Manager Teacher’s node system TCP Student’s nodesystem TCP Student’s nodesystem TCP TCP TCP TCP Student’s nodesystem Student’s nodesystem Student’s nodesystem Student’s nodesystem

  20. Event Recorder/Player Main Controller Command Transceiver Network Writer’s Assistant Web Browser Programming Environment Text Editor Draw Applications

  21. 4. THE EXPERIMENT AND ITS RESULT • Image broadcasting function of SOLAR-CATS VS. • The video projector • hung from the ceiling of the laboratory. • Brightness of the projector : 5000 lm • Size of the screen: width 2m45cm, height 1m84cm • Distance from the screen to the projector: 5m

  22. Distance from the screen to the subject at the most far side: 5m 50cm • Position of the projector from the subjects: Left side or right side from the subjects. • Distance from the floor to the lowest side of the screen: 92cm • Ceiling lights for the screen were turned off. • All other ceiling lights were turned on.

  23. Sample texts • Power point slides of Japanese sentences • The difficulty of materials was the number of letters on one slide. • 2 kinds of difficulties (s=2) • 30 letters total, 3 lines and 10 letters in one line. The size of a letter was 72 point. • 120 letters total, 6 lines and 20 letters in one line. The size of a letter was 36 point. • 6 sets of the above slides (sr=6)

  24. Examples of sample texts

  25. Target tools

  26. Recording data

  27. 82247:o-drawing fc(0).mm(180,430) • 82434:o-drawing fc(0).mxit(173,428) • … • 99219:m-tedit txtedit.txt.kty(0,0,26085) • 99219:m-tedit txtedit.txt.kty(0,1,26412)

  28. Results

  29. Conductivity of projector is better • if the number of letters was smaller • Conductivity of SOLAR-CATS is better • if the number of letters was larger. • Standard distributions of the projector were larger than that of SOLAR-CATS. • It might say that the conductivity of the projector is affected by the subject’s position.

  30. 5. RELATED WORK • Quantitative evaluation of a GUI • has been studying as a research of usability for many years. • Survey and usability testing are used for this evaluation[5]. • Our experiment can be considered as one of usability testing.

  31. Full-dress usability testing • A usability laboratory, monitorsand usability engineers • Much money and time

  32. Nielsen, J. • Easy ways of usability testing • Five subjects are enough. • If qualities of subjects is not so distributed • Our experiment • has no problem for the number of subjects • in this sense. • Automate some of observation of test and marking the test using tools such like SOLAR-CATS.

  33. KLM (Keystroke-Level Model) • Can be used by individuals or companies seeking ways to estimate the time it takes to complete simple data input tasks using a computer and mouse[2]. • Our experiment uses a kind of KLM. • SOLAR-CATS was used to obtain some values of KLM.

  34. Aoki and others • A system which records and replay operations of a Web client. • KLM using the system with an editor on a Web page • Does not have the function which broadcast images and operations to many clients in a short time. • On the other hand, SOLAR-CATS has the function.

  35. Nishida and others • Collected keystroke interval data of daily usage at computer laboratories of a university[6]. • The data of computer laboratories was better than the data of the controlled experiment. • Our experiment was a controlled experiment this time. It is not so difficult to collect the data of daily usage using SOLAR-CATS.

  36. Tamura • An optimum letter size and an optimum space between lines of texts • which are displayed on an electronic chalk board for distance learning environment[7]. • He has used a survey to obtain the results while we have used usability testing. In other words, his test is a subjective test and our test is an objective test.

  37. Kiyohara and others • Understandability of printed materials are better than that of materials on an LCD or a CRT. • Similar to our procedure. • Used test sheets which ask yes or no answer about contents of materials to subjects. • It requires much money or time in order to prepare the test sheets. • Our experiment does not require test sheets.

  38. 6. CONCLUDING REMARKS • A usability testing of presentation tools for computer laboratories • Compared a video projector and inter-PC broadcasting system • SOLAR-CATS is used • as the inter-PC broadcasting system • It is also used for recording the experiment.

  39. The results were in our common knowledge. Not new… • However, we could have Quantitative results. • Would like to have more precise results.

  40. 7. Acknowledgement • We thank our students who are subjects of the experiment and help us to develop and test SOLAR-CATS. • A part of this work was supported by Grant-in-Aid for Scientific Research of Japan Society for the Promotion of Science, Fundamental Research(C), 17500041.

More Related