Program Overview
The Biomedical Informatics BS program at Arizona State University equips students with skills in data acquisition, management, knowledge representation, and machine learning. Graduates are prepared for careers in bioinformatics, data science, and health care data engineering, contributing to advancements in patient care and population health. The program offers research opportunities with faculty experts and a variety of teaching methods, including team-based and problem-based learning.
Program Outline
Degree Overview:
Biomedical Informatics (BS)
Program Description:
Biomedical informatics is a multidisciplinary field that focuses on the generation, acquisition, management, and analysis of biomedical and health data.
Program Objectives:
- Equip students with the ability to:
- Acquire data
- Manage data
- Represent knowledge
- Model and perform machine learning
- Offer students the opportunity to conduct research alongside experts in:
- Bioinformatics
- Imaging informatics
- Sensor informatics
- Artificial intelligence
- Clinical informatics
- Population health informatics
- Graduate students with a broad set of skills and knowledge in biomedical informatics, enabling them to contribute to various areas of health and biomedicine in their future careers.
Program Highlights:
- Approved for STEM-OPT extension for international students on F-1 visas
- Offers opportunities to conduct research with faculty experts in various biomedical informatics subfields
Outline:
Curriculum:
The program curriculum focuses on the following areas:
- Data acquisition
- Data management
- Knowledge representation
- Modeling
- Machine learning
Course Schedule:
The program offers a variety of courses, including:
- Data Acquisition and Management
- Knowledge Representation and Reasoning
- Bioinformatics
- Clinical Informatics
- Population Health Informatics
- Machine Learning for Biomedical Data
Modules:
The program is divided into the following modules:
- Core Courses
- Elective Courses
- Research Opportunities
Core Courses:
The core courses provide students with a foundation in the principles of biomedical informatics. These courses include:
- Introduction to Biomedical Informatics
- Data Management for Biomedical Informatics
- Knowledge Representation and Reasoning
- Bioinformatics
- Clinical Informatics
- Population Health Informatics
Elective Courses:
Elective courses allow students to explore specific areas of interest within biomedical informatics. These courses include:
- Machine Learning for Biomedical Data
- Imaging Informatics
- Sensor Informatics
- Artificial Intelligence for Health
- Public Health Informatics
- Ethics and Policy in Biomedical Informatics
Research Opportunities:
Students have the opportunity to conduct research with faculty experts in various subfields of biomedical informatics. These research opportunities allow students to apply their classroom knowledge to real-world problems and gain valuable research experience.
Assessment:
Assessment Methods:
The program uses a variety of assessment methods to evaluate student learning, including:
- Exams
- Quizzes
- Assignments
- Projects
- Presentations
Assessment Criteria:
The assessment criteria vary depending on the specific course and assessment method. However, general criteria include:
- Accuracy
- Completeness
- Clarity
- Originality
- Critical thinking
Teaching:
Teaching Methods:
The program uses a variety of teaching methods, including:
- Lectures
- Discussions
- Hands-on activities
- Case studies
- Group projects
Faculty:
The program is taught by a team of experienced and qualified faculty members who are experts in their respective fields. The faculty members are actively involved in research and are committed to providing students with a high-quality education.
Unique Teaching Approaches:
The program uses several unique teaching approaches to enhance student learning, including:
- Team-based learning
- Problem-based learning
- Clinical simulations
- Case studies
Careers:
Potential Career Paths:
Graduates of the program can pursue a variety of careers in the field of biomedical informatics, including:
- Bioinformatics scientist
- Data science analyst
- Health care data engineer
- Machine learning engineer
- Public health informatics scientist
Career Opportunities:
Graduates of the program are well-prepared for careers in a variety of settings, including:
- Hospitals
- Pharmaceutical companies
- Government agencies
- Public health organizations
- Research institutions
Career Outcomes:
Graduates of the program have a high rate of employment in the field of biomedical informatics. They are also well-prepared for graduate studies in biomedical informatics or related fields.
Other:
Second Language Requirement:
No
First Required Math Course:
Calculus for Life Sciences
Math Intensity:
Moderate
Program Learning Outcomes:
- Articulate informatics solutions to improve patient care.
- Implement existing informatics solutions to improve patient care.
- Analyze large data sets to improve decisions for patient care or population health.
- Implement informatics solutions to represent and manage biomedical data.
Global Opportunities:
The program offers students the opportunity to study abroad and gain experience in different healthcare systems.
College of Health Solutions Contact Information:
- College of Health Solutions
- COOR 2nd
- chs@asu.edu
- 602-496-3300
Arizona State University: A Comprehensive Overview
Overview:
Arizona State University (ASU) is a top-ranked research university located in the greater Phoenix metropolitan area. It is known for its innovative approach to education, offering a wide range of undergraduate and graduate programs across various disciplines. ASU is recognized for its commitment to inclusivity, serving learners at all stages of life and fostering a diverse and welcoming community.
Services Offered:
ASU provides a comprehensive range of services to support student success, including:
Academic Support:
Tutoring, advising, and academic success resources.Financial Aid:
Scholarships, financial aid programs, and tuition assistance.Student Life:
Housing and dining, clubs and activities, health and wellness services, and transportation.Career Services:
Job and career resources, internship opportunities, and career counseling.Student Life and Campus Experience:
ASU offers a vibrant and engaging campus experience with a strong sense of community. Students can participate in a wide array of clubs, organizations, and events, fostering personal growth and development. The university's diverse student body creates a rich cultural environment, promoting global perspectives and intercultural understanding.
Key Reasons to Study There:
Top-Ranked Programs:
ASU boasts numerous top-ranked programs, including 82 programs ranked in the top 25 nationally, with 37 in the top 10.Innovative Learning Environment:
ASU embraces a flexible and personalized approach to learning, allowing students to customize their academic journey.World-Class Faculty:
Students benefit from instruction led by renowned professors and researchers, many of whom are leaders in their fields.Global Impact:
ASU is consistently ranked among the top universities for global impact, demonstrating its commitment to addressing global challenges.Diverse and Inclusive Community:
ASU fosters a welcoming and inclusive environment, embracing students from all backgrounds and promoting a sense of belonging.Academic Programs:
ASU offers over 800 degree programs across a wide range of disciplines, including:
Undergraduate:
More than 400 undergraduate degrees in fields such as engineering, journalism, business, sustainability, nursing, education, and more.Graduate:
Over 450 graduate degrees, including master's and doctoral programs.Other:
ASU is known for its commitment to research and innovation, with a strong focus on addressing real-world challenges. The university is also a leader in sustainability, promoting environmental responsibility and social justice.
Entry Requirements:
For All Applicants:
- High school diploma or equivalent
- Minimum GPA of 3.0
- Completion of the following coursework with a grade of "C" or better:
- 4 units of high school English
- 3 units of high school mathematics (Algebra I and Geometry or higher)
- 3 units of high school laboratory science (Biology, Chemistry, or Physics)
Additional Requirements for International Students:
- Completion of an English language proficiency exam with a minimum score of:
- TOEFL: 80
- IELTS: 6.5
- PTE Academic: 58
- Proof of financial support
Additional Notes:
- Applicants with a GPA of 3.25 or higher and a strong background in science and mathematics may be eligible for admission with fewer than the required 3 units of high school laboratory science.
- Applicants who do not meet the minimum GPA requirement may be considered for admission on a case-by-case basis.
- International students are strongly encouraged to take the TOEFL or IELTS exam, even if they have completed an English language program in their home country.
Language Proficiency Requirements:
For Non-Native English Speakers:
- Completion of an English language proficiency exam with a minimum score of:
- TOEFL: 80
- IELTS: 6.5
- PTE Academic: 58
Exemptions:
- International students who have completed an undergraduate degree from an accredited institution in an English-speaking country are exempt from the English language proficiency requirement.
- International students who have completed a graduate degree from an accredited institution in the United States are exempt from the English language proficiency requirement.