1. LAB OF TOMORROW project: A constructionist approach in science teaching through emerging technologies IST-2000-25076 M. Apostolakis, Ellinogermaniki Agogi EUN School Networks conference 14 th – 16 th February 2003

2. The Lab of Tomorrow project The framework The consortium The Description Classroom activities Human centered design Evaluation scheme Conclusions

3. “To improve the quality and accessibility of learning at primary and secondary school level through embedded IST, in particular addressing knowledge and skills required by future citizens of the Information Society” Main Objective of the School of Tomorrow Action Line The framework

4. The Lab of Tomorrow Consortium ICCS / NTUA, Coordinator, Greece UNIV. OF BIRMINGHAM, United Kingdom COREP, Italy ANCO SA, Greece UNIV. OF DORTMUND, Germany ELLINOGERMANIKI AGOGI SA, Greece 4 EUROPEAN HIGH SCHOOLS, Germany, Austria, Italy

6. Project’s Objectives –connection between everyday life and science lessons using new educational tools and learning environments –development of a pedagogical framework that will allow successful application of the emerging technology in everyday learning –enhancement of a constructionist approach in science teaching –equal and parallel development of pedagogical and technological innovations –development of a concrete evaluation scheme of educational and technological aspects

7. Project’s description Wearable computers and intelligent sensors will be used to guide students through the learning process in science. Fundamental physical laws in engineering and physics can be addressed through everyday-life activities and the analysis of the data that will be collected by some intelligent artifacts. Students will be able to graphically view all physical quantities under study using a Software Interface. “Lab of tomorrow” project proposes the introduction of an innovation into everyday teaching:

8. Kick life into the classroom

9. The implementation scheme for the Lab of Tomorrow project.

10. Classroom activities Test Run (3 months) Final Run A (4 months) Final Run B (4 months) in each of these cycles of the school-centred work less and less guidance is needed

11. Final Run (Phase A) During this phase students and teachers will follow the constructed lesson plans, by using the already developed tools. The main purpose of this phase is to get both students and teachers familiarized with the new approach and the new tools and prepared them for the final and most important cycle of the school-centred work Feedback - Improvements to the tools

12. Final Run (Phase B) During the last phase students and teachers will be able to study any aspect they consider important by using the tools and the Axions. Additionally, at this stage students will have the opportunity to propose new wearable sensors and ergonomic solutions, providing thus their input in the co- design of the toys and wearables.

13. Human Centred Design - Axions Sensvest: Initial concept

14. Distribution of load

15. 2-axis accelerometer Digital Thermometer Insert Microphone Piezo-electric Pulse transducer 9V Battery Mitsubishi M-16 LCD LED Bench Model

16. SensVest 1.0 Sensors, Displays and Processor laid out on shirt on desk

17. Wearing SensVest 1.0

18. SensVest 1.1 Smart clothing able to record: body acceleration arm acceleration body temperature heart pulse rate leg acceleration

19. Axion Ball Compass, accelerometer and GPS in a ball

20. Axion Ball

21. Teachers training

22. Test Run

23. Test Run Video

24. Lesson Plans adapted to national curricula simple experimental activities

25. Evaluation of the didactic approach The evaluation of the proposed didactic approach will be performed on three aspects: evaluation of student’s learning, evaluation of the underlying pedagogical framework and ethnographic evaluation.

26. Evaluation procedure Development of the research plan Test design Measurements (Test Run) On field observations (Test Run) Measurements (final run) On field observations (final run) Statistical analysis Evaluation report

27. Evaluation schedule (Final Run) Experimental Group TIMSS III ICT Additional Tests Control Group TIMSS II ICT TIMSS III ICT Additional Tests Phase A Phase B TIMSS II ICT 0. month 4. month 8. month Video Documentation pre-test post-test

28. Conclusions The presented pedagogical concepts govern the scientific research in the fields of Pedagogy and Educational Technology. This research is in principle necessary to be performed in a large multinational community for science advance and broad benefits. The developed tools are results of collaboration of complementary expertise in the fields of technology, communications, basic research, educational software development, education, science teaching and pedagogical psychology.

29. Lab of Tomorrow www.laboftomorrow.org The project is being carried out in the framework of the IST programme of the European Commission