Thinking Beyond the Service Course Model: Intentional Integration of Technical Communication Courses in a BME Undergraduate Curriculum
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Abstract
Contemporary engineers must be confident communicating technical and non-technical information to diverse audiences. Traditional curricula may rely on highly generalized communication courses, which are not targeted to the disciplinary content or communication needs of specific engineering fields. To better prepare engineering undergraduates, students may benefit from a curriculum that deconstructs boundaries between disciplinary content mastery and effective communication. Here we describe efforts to intentionally develop and pair technical communication courses with existing biomedical engineering (BME) laboratory courses. To achieve this, interdisciplinary faculty came together through a Community of Practice to design and implement a curriculum that maximizes the benefit of writing instruction through strategic timing and more field-specific relevance. Our work developed a strategically timed integrated curriculum wherein two one-credit technical communication courses replaced an existing 2-credit technical communication course requirement—in the new model, students take a one-credit technical communication course in their sophomore year and a one-credit technical communication course in their junior year. By integrating the courses earlier in the program, we highlight how BME sophomores are now able to apply writing skills immediately to classroom assignments and continually grow their communication skills over the course of the program. Additionally, the integrated curriculum limited the genres of writing to those commonly found in the BME field (industry and academia), with an emphasis on writing as both a process and a product. We will share the changes made within both the engineering and technical communication courses. Briefly, students completed culminating overlapping assignments that were drafted and polished in the TCM class then submitted for a technical grade to the BME course instructor. Throughout, our approach focused on building student-student, student-instructor, and instructor-instructor relationships. Classroom communities and student-student relationships were grown and nurtured through technical peer review, collaborative writing, and team membership (e.g., roles, relationships, management, leadership). In the faculty Community of Practice, key strategies included: 1) integrated, ongoing, and consistent assessment of written and oral communication student deliverables, and 2) a shared content-related vocabulary provided continuity and connections among technical skills and communication to augment the student experience. Here we describe efforts to intentionally develop and pair technical communication courses with existing biomedical engineering (BME) laboratory courses. To achieve this, interdisciplinary faculty came together through a Community of Practice to design and implement a curriculum that maximizes the benefit of writing instruction through strategic timing and more field-specific relevance.