Biomedical Engineering Training Courses and Workshops

Schools providing training courses, certificates, diplomas or degree programs of Biomedical Engineering




Total 114 training courses and degree programs available around the world.

Bioinstrumentation

Course Format: Public Course / Instructor-Led / Open Enrollment
School/Trainer: Greenville Technical College
Training Center(s)/Venue(s): Greenville, Simpsonville, Taylors, United States

This course is a study of the basic concepts of electronic devices, analog instrumentation, origins of biological signals, biological transducers, and digital instrumentation.

Biomedical Engineering (Master Degree)

Course Format: Online / Virtual Classroom / Webinar
School/Trainer: Colorado State University OnlinePlus
Training Center(s)/Venue(s): Fort Collins, United States
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Biomedical engineering lies at the intersection of biomedical challenges and engineering solutions. This coursework-only, professional biomedical engineering master&,#146,s degree provides a transdisciplinary focus on improving health, fighting disease, and aiding persons with disabilities. The master&,#146,s in biomedical engineering is uniquely positioned to offer educational strengths in engineering, the sciences, and animal and human medicine. Students gain a foundation in biomedical engineering, and the distance delivery of the degree provides the flexibility working professionals and non-traditional students need when pursuing an advanced degree.

With our master&,#146,s in biomedical engineering, you explore concepts in:
◾structure and function of biomaterials
◾material issues in mechanical design
◾design and data analysis

Biomedical Engineering

Course Format: Public Course / Instructor-Led / Open Enrollment
School/Trainer: IIT Armour College of Engineering
Training Center(s)/Venue(s): Chicago, United States
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PhD in Biomedical Engineering

The degree is awarded in recognation of a high level of mastery in subject matter and a significant original research contribution in biomedical engineering. The PhD recipient will be capable of a continuing effort toward the advancement of knowledge and achievement in research and other scholarly activities and may pursue a career in a medical, an industrial or an academic environment.

A minimum of 84 credit hours is required for the Ph.D. in Biomedical Engineering. Students who have received an M.S. degree from another university may petition for transfer of up to 32 credit hours applicable toward the Ph.D. degree. Students must pass the Ph.D. qualifying examination within the first year of full-time Ph.D. studies. This is a written and oral examination intended to explore both the depth and breadth of the student s academic abilities. Within two and one-half years of matriculation, students will be required to defend their thesis research proposal (comprehensive examination). A written dissertation and oral defense are... [Read More]

Biomedical Engineering (Master Degree)

Course Format: Public Course / Instructor-Led / Open Enrollment
School/Trainer: University of Houston
Training Center(s)/Venue(s): Houston, United States
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The Department of Biomedical Engineering offers graduate programs leading to the following degrees:

Doctor of Philosophy in Biomedical Engineering
Master of Science (thesis and non-thesis option) in Biomedical Engineering
The graduate programs are open to all qualified individuals with a Bachelor of Science (B.S.) or Master’s of Science (M.S.) in Biomedical Engineering or related field. Upon admission, students with degrees in related fields will be evaluated on a case-by-case basis and may be required to take additional leveling courses. These leveling courses do not count towards the graduate degree. Generally, every graduate student should have taken:

2 years of Calculus (through differential equations)
1 year of Engineering Physics (calculus based physics)
1 year of Biology
1 year of Chemistry

Biomedical Sciences (Master Degree)

Course Format: Public Course / Instructor-Led / Open Enrollment
School/Trainer: Midwestern University Glendale Campus
Training Center(s)/Venue(s): Glendale, United States
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The Master of Biomedical Sciences (MBS) Program is designed as a full-time, graduate-level program that provides the student with a broad background in the biomedical sciences, laboratory experiences, and research skills. The curriculum is designed to prepare and graduate students who have extensive knowledge, technical skills, and expertise to function in a variety of biomedical professions. These include careers as technicians and supervisors in the biotechnology, biosafety, and pharmaceutical industry, research personnel in biomedical science laboratories, employees in governmental and regulatory agencies, and faculty for undergraduate teaching programs.

The 72-quarter-hour (minimum) master&,#146,s degree curriculum is usually completed in 21-24 months. All students must complete the program within four years of matriculation, excepting approved leaves of absence. All students are required to complete a research project approved by the student&,#146,s research committee. The required curriculum includes basic science courses in biochemistry, molecular an... [Read More]

Biomedical Sciences

Course Format: Public Course / Instructor-Led / Open Enrollment
School/Trainer: Midwestern University Downers Grove Campus
Training Center(s)/Venue(s): Chicago, United States
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The Master of Biomedical Sciences Program is a full-time, graduate level program that provides the student with a broad background in the biomedical sciences, laboratory experiences, and research skills. Successful completion of the program leads to a Master of Biomedical Sciences degree. The curriculum is designed to prepare and graduate students who have extensive knowledge, technical skills, and expertise to function in a variety of biomedical professions. These include careers in areas such as technicians and supervisors in the biotechnology and pharmaceutical industry, research personnel in biomedical sciences laboratories, employees in governmental and regulatory agencies, and undergraduate teaching. In addition, the curriculum will make the successful student a competitive candidate for admission to postbaccalaureate professional schools offering degrees in the health sciences.

The 72 quarter-hour curriculum typically is completed in 21 months. Students who need more than 21 months to complete the program will be required to enroll in a thesis continuation... [Read More]

Biomedical Engineering (Master Degree)

Course Format: Public Course / Instructor-Led / Open Enrollment
School/Trainer: Arizona State University - Tempe Campus
Training Center(s)/Venue(s): Tempe, United States
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The School of Biological and Health Systems Engineering faculty offer a graduate program leading to the MS in biomedical engineering.

Areas of study include:

biomaterials, biomensors, biomarkers and biomimetic materials

biomedical imaging
molecular, cellular and tissue engineering
neural and rehabilitation engineering
synthetic and systems biology
Biomedical engineering offers both thesis and applied project master&,#146,s degrees to those students who meet the criteria for successful graduate study.

Biomedical engineering offers a joint BSE and applied project MS in the biomedical engineering degree program. The program allows up to twelve credit hours of graduate-level course work taken as technical electives during the senior year to be applied toward the undergraduate and graduate degrees.

Biomedical Engineering (Master Degree)

Course Format: Public Course / Instructor-Led / Open Enrollment
School/Trainer: The University of Texas at Arlington
Training Center(s)/Venue(s): Arlington, United States
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The Fast Track program enables outstanding undergraduate Physics or Biochemistry students to receive dual undergraduate and graduate course credit leading to receiving both a Bachelor of Science Degree in either Physics or Biochemistry and a Master&,#146,s Degree in Biomedical Engineering. See the departmental advisors for additional information on these programs.

Description

Bioengineers use quantitative methods and innovation to analyze and to solve problems in biology and medicine. Students choose the Bioengineering field to serve people, to partake in the challenge and excitement of working with living systems, and to apply advanced technology to complex problems of medical care. Through this program, students learn the essentials of life science, engineering theory, and the analytical and practical tools that enable them to be successful in the biotechnology and Bioengineering industries. The program includes coursework in the basic sciences, core engineering, Bioengineering, and advanced biotechnology disciplines. Both didactic classroom lectu... [Read More]

Biomedical Engineering (Master Degree)

Course Format: Public Course / Instructor-Led / Open Enrollment
School/Trainer: University of Texas at Dallas
Training Center(s)/Venue(s): Dallas, United States
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Biomedical engineering involves the application of engineering principles and methods to define and solve problems in medicine and biology. Students choose biomedical engineering to be of service to people, for the challenge of working with living systems, and to apply advanced technology to problems of health care delivery.

grad studentBiomedical engineering careers can be found in industrial, health care, academic, private laboratory and government settings. The typical biomedical engineer will work in a team environment that may include physical scientists, engineers, clinicians and life scientists.

The objective of the MS degree program in biomedical engineering is to produce graduates who are capable of undertaking challenging projects that require advanced knowledge of the design of mechanical, electrical and thermal systems, focused in life science applications.

The objective of the PhD program in biomedical engineering is to produce graduates who can identify future applications in the field, analyze current technology capabil... [Read More]

Biomedical Engineering (Master Degree)

Course Format: Public Course / Instructor-Led / Open Enrollment
School/Trainer: The University of Texas Health Science at San Antonio
Training Center(s)/Venue(s): San Antonio, United States
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The Biomedical Engineering program is offered jointly by the graduate schools of the University of Texas Health Science Center at San Antonio (UTHSCSA) and the University of Texas at San Antonio (UTSA), and it offers a MS degree in addition to the PhD degree. Students are trained in the use of basic bioengineering approaches for the investigation of fundamental biomedical questions associated with the diagnosis and treatment of human diseases. Students in this program have access to biosciences and bioengineering laboratories at both UTHSCSA and UTSA. Students interested in this program apply through UTSA.

Biomedical Engineering (Master Degree)

Course Format: Public Course / Instructor-Led / Open Enrollment
School/Trainer: Drexel University
Training Center(s)/Venue(s): Philadelphia, United States
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The School of Biomedical Engineering, Science, and Health Systems is a nationally recognized center of research and graduate education. It offers multidisciplinary graduate instruction and research on both a full- and part-time basis

The faculty includes individuals with engineering, physics, mathematics, biostatistics, life science, medical, and clinical specialties. Multidisciplinary research is carried out through collaboration among Drexel University faculty members and with several medical schools and hospitals in the Philadelphia area.

For graduate students, the School offers master&,#146,s of science (M.S.) and Ph.D. programs in Biomedical Eengineering and Biomedical Science. Areas of specialization available or under development include biomechanics, rehabilitation, biomaterials and tissue engineering, biosensors and biomedical imaging, biostatistics, genome science and bioinformatics, human factors and performance engineering, neuroengineering, and systems biology.

In addition to courses offered by the School, various departments... [Read More]

Biomedical Engineering

Course Format: Public Course / Instructor-Led / Open Enrollment
School/Trainer: Southern California Institute of Technology
Training Center(s)/Venue(s): Anaheim, United States
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SCIT&,#146,s Biomedical Engineering program introduces students to the medical applications of engineering. Courses branch out from firm foundations in electronics and mathematics to concentrate on the key fields of Biomedical Engineering such as BioMechanics, BioImaging, BioMaterials, and Medical Instrumentation Design. The program aims to provide students with a diverse engineering background to enable them to succeed in Biomedical Engineering related fields.

Solid Engineering Foundation

Biomedical Engineering is a cross between engineering and biological sciences, however SCIT&,#146,s program focuses primarily on the engineering aspects of the field. Students begin by building a strong engineering foundation from the basics. Principles of electricity, digital, and analog circuitry concepts along with solid mathematical foundations will be the building blocks for successful understanding of biomedical engineering applications extending to digital signal processing, Matlab computer programming, and Medical Instrumentation Design.

Appl... [Read More]

Biomedical Engineering

Course Format: Public Course / Instructor-Led / Open Enrollment
School/Trainer: Milwaukee School of Engineering
Training Center(s)/Venue(s): Milwaukee, United States
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Biomedical engineers are vital to improving the health care system both here and abroad. They work in private and public arenas developing cutting-edge tools and technologies to help improve peoples?lives. It’s the perfect field for someone who wants to have a direct impact by helping people, but who may not want to pursue a medical degree.

Students in MSOE’s BE program are exposed to the six major BE areas (see below), allowing them to postpone selecting a specific career path until their senior year. Students also participate in an extended capstone design experience that simulates industry practice. They take business and science courses to learn how these two fields interact.

Six BE areas covered in MSOE’s program:

Biomaterials
Biomechanics and rehabilitation engineering
Electronic medical instrumentation and bio-signal processing
Medical imaging
Medical instrumentation
Systems physiology, modeling and artificial internal organs

Biomedical engineering is one of the fastest growing engineering fields. ... [Read More]

Biomedical Engineering (Master Degree)

Course Format: Public Course / Instructor-Led / Open Enrollment
School/Trainer: Marquette University Graduate School
Training Center(s)/Venue(s): Milwaukee, United States
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Specializations
M.S.: Bioinstrumentation/Computers, Biomechanics/Biomaterials, Rehabilitation Bioengineering, Systems Physiology
M.E.: Biocomputing, Bioimaging, Bioinstrumentation, Biomechanics, Biorehabilitation
Ph.D.: Bioinstrumentation/Computers, Biomechanics/Biomaterials, Functional Imaging, Rehabilitation Bioengineering, Systems Physiology

Program Description

The biomedical engineering program is interdisciplinary in nature, involving the application of engineering and mathematics to the solution of problems related to medicine and biology. Marquette faculty are complemented by adjunct faculty from the Medical College of Wisconsin. The MU/MCW Center for Biomedical Engineering and Biomathematics fosters collaborative interactions between the two institutions. Research can be characterized by the general areas of bioinstrumentation/computers, biomechanics/biomaterials, rehabilitation bioengineering and systems physiology. More specific areas of research include: artificial limbs/prostheses, biomaterials, biotelemetry, cell transport a... [Read More]

Biomedical Engineering

Course Format: Public Course / Instructor-Led / Open Enrollment
School/Trainer: Marquette University
Training Center(s)/Venue(s): Milwaukee, United States
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Robots for eye surgery, implantable defibrillators, artificial organs and tissues, prosthetics and bicycle helmets. Thanks to biomedical engineering majors, these and other devices and systems help us live better ?and longer ?lives. By applying engineering methods to solve medical and biological problems, biomedical engineering aims to improve our quality of life. Marquette has three biomedical engineering majors: biocomputing, bioelectronics and biomechanics.

Engineering problems solved.

With your senior-year capstone course, you and fellow classmates will be on a design team commissioned to solve real biomedical problems.

Take your degree further.

You can complete two degrees in five years through Marquette&,#146,s unique combined bachelor&,#146,s and master&,#146,s degree program or join the 15 percent of our graduates who enter medical school after graduation.

Be an engineer before you graduate.

Seventy-five percent of our biomedical engineering majors co-op or intern while they&,#146,re und... [Read More]

Biomedical Engineering Technology - Equipment and Devices (Diploma)

Course Format: Public Course / Instructor-Led / Open Enrollment
School/Trainer: St. Clair College
Training Center(s)/Venue(s): Windsor, Canada
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This is an interdisciplinary program combining the fields of health science and engineering where students will apply engineering principles to the field of medical science. The Biomedical Engineering Technology - Equipment and Devices Advanced Diploma program will cover the broad sectors of Biomechanics, Biomaterials and Bioinstrumentation and Imaging. Students in this program will acquire interdisciplinary skills from the areas of Mechanical and Electrical/Electronics Engineering, Physical Sciences, Biology, Chemistry and Health Sciences, and will apply these multidisciplinary skills to biological and biomedical systems.

PROGRAM HIGHLIGHTS
•According to the U.S. Bureau of Labor Statistics, the Medical Equipment and Supplies Manufacturing Industry employs the greatest number of Biomedical Engineering Technologists.
•Biomedical Engineering Technologists will be the single fastest growing occupation with a projected increase of 72% or 11,600 new jobs between 2008-2018.

EMPLOYMENT OPPORTUNITIES
Entry level positions in industries that de... [Read More]

Biomedical Engineering

Course Format: Public Course / Instructor-Led / Open Enrollment
School/Trainer: Wentworth Institute of Technology
Training Center(s)/Venue(s): Boston, United States
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Wentworth&,#146,s biomedical engineering program is intended to educate future practicing biomedical engineers through a practice-oriented education, so that the graduates will be able to utilize technological advancements, contribute to innovative biomedical engineering design solutions in a collaborative environment, and make appropriate decisions for their areas of professional responsibility.

Biomedical Engineering Outcomes

Graduates of Wentworth’s Biomedical Engineering program will have:
1.Ability to apply knowledge of mathematics, science, and engineering
2.Ability to design and conduct experiments, as well as to analyze and interpret data
3.Ability to design a system, component, or process to meet desired needs within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability
4.Ability to function on multi-disciplinary teams
5.Ability to identify, formulate, and solve engineering problems
6.Understanding of professional and et... [Read More]

Biomedical Engineering

Course Format: Public Course / Instructor-Led / Open Enrollment
School/Trainer: Catholic University of America
Training Center(s)/Venue(s): Washington DC, United States
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Accredited by ABET since 1991 and one of the first few programs to receive accreditation, CUA has a longstanding tradition and success in training undergraduate and graduate biomedical engineers for various careers for industry, research, medical school and other professional opportunities.

The program offers students an even balance between theoretical principles and hands-on design and engineering. Combined with opportunities to work directly with faculty and renown researchers in the area, students receive practical training in the field that prepares them for a lifetime of challenges in this evolving field!

Biomedical Engineering Technology (Diploma)

Course Format: Public Course / Instructor-Led / Open Enrollment
School/Trainer: Centennial College
Training Center(s)/Venue(s): Toronto, Canada
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In the biomedical equipment industry, engineering and scientific disciplines merge resulting in innovations beneficial to both the healthcare system and society. Companies in this industry must now meet the challenge of providing a range of quality products. As a result, there will be a greater need for qualified professionals. Biomedical engineering integrates various principles including electronics, micro-controller, computer, chemical, biology, medicine, health and engineering in the design of medical equipment, rehabilitation and health improvement devices.

In response to this growing demand for technology professionals who understand health-related fields, Centennial College is offering the Biomedical Engineering Technology program. The program will prepare you for a challenging career with the latest technology, while continuing to evolve to reflect the ever-growing innovations. This program provides an optimum balance between theory and hands-on labs.
Students will be guided towards future Certified Engineering Technologist (CET) and Certified Bi... [Read More]

Biomedical Engineering

Course Format: Public Course / Instructor-Led / Open Enrollment
School/Trainer: The George Washington University
Training Center(s)/Venue(s): Washington DC, United States
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GW’s biomedical engineering program is offered through the Department of Electrical and Computer Engineering, which is part of the School of Engineering and Applied Science. This innovative program takes advantage of the unique combination of resources and opportunities that the engineering school provides through its connection with GW’s medical school and hospital and with the biotech industries and world-class laboratories in the Washington metropolitan area.

Related Majors, Minors, and Concentrations

Students in the biomedical engineering program can select classes from a broad range of disciplines. These include biomechanics, electrical engineering, physiology, biology and biotechnology.

What can I expect to learn in the Biomedical Engineering program at GW?

You will combine what you learn in the classroom with what you learn in specialty laboratories, internships in private or federal laboratories and our design seminar. You will develop a solid understanding of biomedical engineering and how to use it to solve medical and b... [Read More]

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Find Biomedical Engineering training courses, certificates, diplomas and degrees in Countries:



Australia - Canada - India - Indonesia - Ireland - Malaysia - Pakistan - Philippines - Singapore - South Africa - United Arab Emirates - United Kingdom - United States



Facts:
We serve the schools and students around the world. Major visitors come from India, United States, United Kingdom, Canada, Australia, Philippines, Malaysia, Singapore and South Africa.



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