Bachelor of Commerce (BComm)
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Bachelor of Computing (Honours) - Biomedical Computation
Kingston
INTAKE: September
Program Overview
The Bachelor of Computing (Honours) in Biomedical Computation at Queen's University offers a comprehensive education at the intersection of computing and biomedical sciences. This program combines computer science principles with a focus on biomedical applications, providing students with the skills and knowledge to tackle complex challenges in healthcare, medicine, and life sciences. Students learn to develop computational tools, algorithms, and models to analyze biomedical data, simulate biological systems, and advance medical research and healthcare delivery.
Curriculum: The curriculum of the Bachelor of Computing (Honours) in Biomedical Computation program is designed to provide students with a strong foundation in both computing and biomedical sciences. Core courses cover topics such as programming, data structures, algorithms, computer architecture, and software engineering, alongside specialized courses in biomedical data analysis, medical imaging, computational biology, and bioinformatics. Students engage in hands-on projects, laboratory work, and industry internships to apply computational techniques to solve real-world biomedical problems.
Research Focus: Research is a central focus of the Bachelor of Computing (Honours) in Biomedical Computation program at Queen's University. Faculty members within the computing and biomedical sciences departments are engaged in interdisciplinary research projects spanning various areas such as medical imaging, bioinformatics, computational genomics, and medical device development. Undergraduate students have the opportunity to participate in research initiatives, independent studies, and collaborative projects, working alongside faculty mentors to contribute to cutting-edge research in biomedical computation.
Industry Engagement: The Bachelor of Computing (Honours) in Biomedical Computation program at Queen's University emphasizes industry engagement and the practical applications of computational skills in biomedical settings. Graduates possess strong programming, data analysis, and problem-solving abilities that are highly valued in industries such as healthcare, pharmaceuticals, medical device manufacturing, and biotechnology. Career paths for Biomedical Computation majors may include software development for healthcare systems, medical imaging analysis, clinical data analytics, or biomedical research informatics. Industry partnerships, internships, and co-op programs provide students with hands-on experience and industry connections.
Global Perspective: Queen's University promotes a global perspective within its Bachelor of Computing (Honours) in Biomedical Computation program, recognizing the global impact of computational approaches in biomedical research, healthcare delivery, and public health. Courses in global health informatics, computational epidemiology, or telemedicine explore how computing technologies can address global health challenges and improve healthcare access and outcomes worldwide. Study abroad programs, international research collaborations, and participation in global health initiatives offer students the opportunity to engage with diverse perspectives and contribute to advancing biomedical computation on a global scale.
Location
Kingston
Score
IELTS 6.5
Tuition Fee
CAD 54908
ENTRY REQUIREMENTS for International Students:
Application Fees: 261
Academic Requirements: International students should have a minimum overall average of 75% or equivalent in their previous academic studies. This percentage may vary depending on the specific program and competition.
English Language Proficiency:
- IELTS: An overall band score of 6.5, with no individual band score less than 6.
- TOEFL: A minimum score of 88 on the internet-based test (iBT).
- PTE: A minimum score of 60 on the Pearson Test of English.
- DET: A minimum score of 110 on the Duolingo English Test.
Queen's University in Canada offers a range of scholarships and financial aid options to support international students in their academic pursuits. These scholarships are designed to recognize academic excellence, promote diversity, and provide assistance to students with financial need.
International Admission Scholarships: Queen's University offers automatic scholarships to international students who are admitted to undergraduate programs. These scholarships are awarded based on academic achievement and vary in value. Eligibility and specific scholarship amounts are determined by the student's admission average or equivalent academic qualifications.
Major Admission Awards: Queen's University also offers prestigious scholarships to exceptional international students entering their first year of undergraduate studies. These awards are highly competitive and recognize academic excellence, leadership, and community involvement. Eligible students are automatically considered for these scholarships during the admissions process.
In-Course Scholarships: Queen's University provides scholarships to current undergraduate international students who have demonstrated outstanding academic performance during their studies. These scholarships are typically awarded based on specific criteria, such as GPA or departmental recommendations.
External Scholarships: Queen's University encourages international students to explore external scholarship opportunities, such as government scholarships, international exchange programs, and sponsorships from their home countries. The university's website provides information and resources to assist students in finding external scholarship opportunities.
It is important to note that the availability, eligibility criteria, and application processes for scholarships may vary. Additionally, it is recommended to check specific eligibility requirements and deadlines for each scholarship, as they may vary depending on the scholarship program and level of study.
Graduating with a Bachelor of Computing (Honours) in Biomedical Computation from Queen's University opens up a diverse range of career opportunities at the intersection of computing and biomedical sciences.
Biomedical Software Developer: Biology and Computing majors can pursue careers as biomedical software developers, designing and developing software applications, algorithms, and tools for biomedical research, medical imaging, clinical data management, or healthcare informatics. They work closely with researchers, clinicians, and healthcare professionals to create innovative solutions that improve patient care, diagnosis, and treatment outcomes.
Bioinformatics Analyst: Graduates may work as bioinformatics analysts, utilizing computational techniques to analyze biological data sets, such as DNA sequences, protein structures, or gene expression profiles. They apply statistical methods, machine learning algorithms, and data visualization techniques to interpret genomic data, identify genetic variations, or predict protein functions. They contribute to genomic research, personalized medicine, or drug discovery efforts in academia, biotechnology, or pharmaceutical industries.
Clinical Data Scientist: Biology and Computing majors can become clinical data scientists, analyzing large-scale clinical datasets to derive insights into disease trends, treatment outcomes, or healthcare utilization patterns. They apply data mining techniques, predictive analytics, and machine learning algorithms to identify risk factors, predict patient outcomes, or optimize healthcare delivery processes. They work in hospitals, healthcare organizations, or government agencies, supporting evidence-based decision-making in healthcare management and policy.
Medical Imaging Specialist: Graduates may specialize in medical imaging analysis, developing algorithms and software tools to process, analyze, and interpret medical images, such as MRI scans, CT scans, or X-rays. They apply image processing techniques, pattern recognition algorithms, and machine learning methods to extract quantitative information, detect abnormalities, or assist in diagnosis and treatment planning. They work in hospitals, imaging centers, or medical device companies, contributing to advancements in medical imaging technology and diagnostics.
Healthcare IT Consultant: Biology and Computing majors can work as healthcare IT consultants, advising healthcare organizations, clinics, or research institutions on the implementation and optimization of health information systems, electronic medical records, or telemedicine platforms. They assess IT infrastructure needs, design custom software solutions, and provide training and support to healthcare professionals. They facilitate the adoption of digital health technologies, interoperability standards, and data security measures to enhance patient care and clinical workflows.
Biomedical Researcher: Graduates may pursue careers as biomedical researchers, conducting interdisciplinary research projects that leverage computational approaches to address biological questions, model biological systems, or develop new therapeutic interventions. They work in academic institutions, research laboratories, or biomedical companies, collaborating with scientists, clinicians, and engineers to advance knowledge in areas such as genomics, systems biology, or medical device design.
Health Informatics Specialist: Biology and Computing majors can become health informatics specialists, leveraging their expertise in computing and biomedical sciences to design, implement, and manage health information systems, electronic health records, or population health analytics platforms. They work in public health agencies, healthcare organizations, or government agencies, supporting data-driven decision-making, health surveillance, and disease monitoring initiatives.
