Background: New medical schools have been opened in the eastern and southeastern regions of the country. They are also in great need of basic medical science teachers. However, due to security reasons over the past two decades, teachers from the established universities do not desire to travel to these medical schools for lectures. The objective of this study was to develop a synchronous classroom conferencing system to teach basic science courses between two general purpose technology enhanced classrooms of two different universities-Istanbul University (IU) and Istanbul and Harran University (HU), Urfa-located 1,500 miles apart in Turkey. Description: I videostreamed the instructor, content from document camera, Power Point(r) presentations at IU, and the students at both places, IU and HU. In addition, I synchronously broadcast two whiteboards by attaching two mimio(tm) devices to the two blackboards in the IU classroom to capture and convert everything written or drawn on them into broadcasting over the intranet. This technique is called "boardcasting," which allows users to stream ink and audio together over the Internet or intranet live. A total of 260 students at IU and 150 students at HU were involved. Off-campus HU students also have asynchronous access to the stored lecture video materials at any time. Midterm and final examinations were administered simultaneously using the same questions at both sites in two universities under the observation of the teaching faculty using the very same system. Evaluation: This system permitted interaction between the students in the class at IU and remote-campus students at HU and the instructor in real time. The instructors at IU were able to maintain a significant level of spontaneity in using their multimedia materials and electronic whiteboards. The mean midterm and final exam scores of students at both universities were similar. Conclusion: The system developed in this study can be used by the medical faculty at the main teaching hospitals to deliver their lectures in real time to the medical students when they are on placement in general practices, ambulatory clinics, and district hospitals in rural areas or to the students of other medical schools. This is an efficacious system in developing countries where availability of high-speed networks and cost of communication are major concerns.
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