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B.S. in Biomedical Engineering - Biocomputing

Milwaukee, Wisconsin

 

INTAKE: Jan & Aug

Program Overview

Marquette University's B.S. in Biomedical Engineering with a specialization in Biocomputing is a forward-thinking program that combines the principles of biology, computer science, and engineering to address the complex challenges of the biomedical field. This STEM-designated and ABET-accredited program reflects Marquette's commitment to providing students with a rigorous and comprehensive education at the intersection of science, technology, and healthcare. The curriculum is designed to equip students with a cutting-edge understanding of biocomputing, emphasizing both theoretical knowledge and hands-on practical applications. Students engage in interdisciplinary coursework that covers topics such as computational biology, medical imaging, data analysis, and bioinformatics. The program's focus on STEM disciplines ensures that graduates are well-prepared for the demands of the rapidly evolving biomedical industry. With an emphasis on global perspectives, the program encourages students to understand healthcare challenges on a worldwide scale. A capstone project, aligned with industry needs, allows students to showcase their skills and innovation, preparing them for successful careers in the biomedical engineering field. Marquette's commitment to professional development and a holistic educational approach ensures that graduates emerge as well-rounded professionals ready to contribute to advancements in biocomputing, personalized medicine, and healthcare technologies.

Curriculum:

  1. STEM-Designated Excellence: The B.S. in Biomedical Engineering with a focus on Biocomputing is a STEM-designated program, reflecting its emphasis on Science, Technology, Engineering, and Mathematics, providing students with a robust foundation in these critical disciplines.

  2. ABET Accreditation: The program holds accreditation from the Accreditation Board for Engineering and Technology (ABET), ensuring that it meets the high standards set by this prestigious accrediting body for engineering programs.

  3. Interdisciplinary Approach: Marquette's program takes an interdisciplinary approach, combining principles from biology, computer science, and engineering to address complex challenges in the biomedical field.

  4. Cutting-Edge Biocomputing Curriculum: The curriculum is designed to equip students with the skills needed to leverage computational tools in biomedical applications, integrating theoretical knowledge with practical problem-solving.

  5. Hands-On Laboratory Experience: Students engage in hands-on laboratory experiences, applying computational techniques to real-world biomedical scenarios. This practical approach enhances their ability to address industry-specific challenges.

  6. Faculty Expertise: The program is led by experienced faculty with expertise in biomedical engineering and biocomputing. Students benefit from mentorship and guidance from professors actively engaged in research at the forefront of these fields.

  7. Innovative Research Opportunities: Students have access to innovative research opportunities, allowing them to explore and contribute to advancements in biocomputing, personalized medicine, and healthcare technologies.

  8. Industry-Relevant Capstone Projects: Culminating in a capstone project, students apply their knowledge to solve real-world problems, collaborating with industry partners and gaining valuable experience in the field.

  9. Professional Development: The program emphasizes professional development, preparing students for successful careers through resume-building, networking events, and connections with industry professionals.

  10. Global Perspectives: With a focus on global perspectives, the program encourages an understanding of the diverse challenges in healthcare worldwide, preparing graduates to contribute to solutions on a global scale.

Pollster Education

Location

Milwaukee, Wisconsin

Pollster Education

Score

IELTS: 6.5

Pollster Education

Tuition Fee

USD 42000

Entry Requirements For Undergraduate Programs

1. Completed Application: Students must submit all required documentation, including high school transcripts, SAT or ACT scores, and recommendation letters,Course by Course transcript evaluation required.

2. Academic Qualifications: The minimum requirement for admission is a high school diploma or equivalent. Marquette University also considers the student's academic performance in high school, including grades and the rigor of their coursework. A minimum GPA: 3.0 is required.

3. English Language Proficiency: International students must demonstrate English language proficiency through standardized tests like TOEFL overall score of 80, IELTS overall 6.5.

Marquette University offers several scholarships and financial aid options to support international students in pursuing their education. These scholarships are designed to recognize academic achievement, leadership potential, and diverse backgrounds. 

  1. International Merit Scholarships: Marquette University offers merit-based scholarships to outstanding international students. These scholarships are awarded based on academic excellence and range from partial to full tuition coverage. Eligible students are automatically considered for these scholarships upon admission.

  2. Ignatius Scholarship Program: The Ignatius Scholarship Program is a highly competitive scholarship opportunity for incoming freshmen. It recognizes students who have demonstrated exceptional leadership skills, service to others, and academic achievement. The scholarship provides financial assistance and access to a range of enrichment programs.

  3. Talent-based Scholarships: Marquette University offers talent-based scholarships for students with exceptional skills in areas such as music, theater, and visual arts. These scholarships are awarded through auditions, portfolio reviews, or other talent-based evaluations.

  4. Departmental Scholarships: Various academic departments at Marquette University offer scholarships to students within their respective fields of study. These scholarships recognize academic excellence and provide financial assistance to support students' educational pursuits.

  5. International Student Work Opportunities: Marquette University provides international students with opportunities for on-campus employment. These part-time jobs allow students to gain valuable work experience, earn income to cover expenses, and contribute to their personal and professional development.

  6. External Scholarships and Sponsorships: Marquette University encourages international students to explore external scholarship opportunities and sponsorships. There are several organizations, foundations, and government programs that offer scholarships specifically for international students studying in the USA. The university's International Student Services office can provide guidance and resources to assist students in identifying and applying for such scholarships.

It's important to note that scholarship availability, criteria, and application deadlines may vary each year.

Marquette University's B.S. in Biomedical Engineering with a focus on Biocomputing equips graduates with a unique skill set to navigate the intersection of biology, engineering, and computing. Marquette's B.S. in Biomedical Engineering with a concentration in Biocomputing not only provides a solid foundation in engineering principles and biomedical sciences but also empowers graduates to make significant contributions to the rapidly evolving landscape of biocomputing in healthcare and beyond.

  1. Bioinformatics Analyst: Graduates can pursue roles as bioinformatics analysts, utilizing computational tools to analyze biological data, deciphering genetic codes, and contributing to advancements in healthcare.

  2. Biomedical Software Developer: Careers as biomedical software developers involve designing and creating software solutions for medical devices, diagnostic tools, and healthcare applications.

  3. Medical Data Scientist: Graduates may work as medical data scientists, extracting valuable insights from large datasets to inform medical research, personalized medicine, and clinical decision-making.

  4. Healthcare IT Specialist: Opportunities exist in healthcare IT, where graduates can contribute to the development and maintenance of information systems that enhance patient care and streamline healthcare processes.

  5. Biocomputing Researcher: Roles in biocomputing research enable graduates to explore cutting-edge technologies, conduct experiments, and contribute to the development of innovative solutions in biomedicine.

  6. Pharmaceutical Data Analyst: Graduates may specialize in pharmaceutical data analysis, supporting drug discovery, clinical trials, and pharmacological research through computational approaches.

  7. Biomedical System Architect: Careers involve designing and optimizing biomedical systems, integrating computational elements to enhance the efficiency and functionality of medical devices.

  8. Biocomputing Consultant: Graduates can work as consultants, advising healthcare organizations and research institutions on the implementation of biocomputing solutions for improved outcomes.

  9. Digital Health Entrepreneur: Entrepreneurial paths may involve establishing startups focused on digital health innovations, leveraging biocomputing to create novel products or services.

  10. Biomedical Informatics Specialist: Opportunities exist as informatics specialists, managing and analyzing healthcare information to improve patient care, healthcare delivery, and public health outcomes.

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