国际学生入学条件
Admission to the Ph.D. programs is highly selective. Only those individuals with superior qualifications and a B.S. and/or M.S. from an accredited institution in computer engineering, computer and information science, electrical engineering, or a related field are invited to apply. Accepted students must start their doctoral program of study in the fall semester. No students will be accepted to start the program in the spring semester. Applicants must provide scores on the general test of the Graduate Record Examination (GRE).
In addition, applicants whose native language is not English must provide scores on the Test of English as a Foreign Language (TOEFL).
Each program has its own admission committee that evaluates the overall academic record of an applicant. Each of these committees uses the following general guidelines during the evaluation process:
GRE Verbal score of 153 or better (using New GRE Score System),
GRE Quantitative score of 155 or better (using New GRE Score System),
GRE Analytical Writing score of 4.5 or better (the GRE Analytical multiple choice is not acceptable),
For international students: TOEFL computer-based score of 250 (Internet-based score 100, paper-based score 600) or better,
GPA of 3.5/4.0 or better.
Exceptional candidates who may not satisfy the above general guidelines but excel in other criteria (such as publications in technical conferences and/or journals, scholastic achievement) are encouraged to apply.
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雅思考试总分
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雅思考试指南
- 雅思总分:7
- 托福网考总分:100
- 托福笔试总分:600
- 其他语言考试:NA
CRICOS代码:
申请截止日期: 请与IDP顾问联系以获取详细信息。
课程简介
This research area focuses on: the regeneration of tissues, limbs, and organs, development of assistive technologies for rehabilitative treatment, and the application of systems engineering approaches to the patient experience from surgery through follow-up rehabilitation. The goal is to enable the development, testing, and implementation of sustainable healthcare alternatives to combat infection, tissue/organ damage, and disability/aging.<br><br>Regenerative engineering combines stem cell technology with advances in our engineering ability to create specific mechanical and biochemical microenvironments with the aim of inducing desired cell and tissue behavior. Researchers in this area seek to determine and replicate the material cues from microenvironments to spur cell differentiation and cellular growth, ultimately leading to the formation or healing of complex tissues. At LCS, we currently focus our efforts on the discovery and utilization of adaptive materials and scaffolds for engineering musculoskeletal tissue and nerve regeneration. In the near future, we envision broadening these efforts through new faculty hires and by synergistic collaborations with clinical researchers, especially to expand the capability to routinely perform experiments using in vivo animal models to test the potential of our laboratory findings in repairing/healing musculoskeletal tissue/organ damage and nerve injuries.
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