Computer-Aided Design (CAD) tools have fundamentally transformed architectural education by offering greater precision, efficiency, and flexibility compared to traditional hand-drawing techniques. This study investigates the impact of CAD ₚrograms on architectural training, focusing on their influence on students’ technical knowledge, spatial perception, and creativity. A mixed-method approach was employed, combining literature review and an empirical survey. The survey was administered to 40 first-year architecture students at Bursa Technical University following the completion of their introductory CAD course. Quantitative results revealed that 95% of the students reported an improvement in their technical knowledge, 90% stated enhanced drawing abilities, and 73% observed better spatial perception. However, only 65% felt that CAD improved their creativity, with qualitative feedback indicating mixed experiences regarding creative freedom. While many students valued CAD’s capacity for precise, iterative design, others felt constrained by software limitations. The majority (85%) favored a hybrid approach, combining CAD with hand-drawing techniques. The originality of this study lies in its integration of quantitative and qualitative data to assess both the benefits and perceived limitations of CAD in early design education. The findings underscore the importance of pedagogical strategies that blend digital tools with traditional methods, supporting both efficiency and creative exploration. This study contributes to the architectural education literature by offering empirical insights into students’ evolving design practices and by proposing a framework for balanced digital-traditional integration in design pedagogy.
İmran Gümüş (Mon,) studied this question.