1 / 28

New Graduate Student Orientation Fall 2005 Welcome Aboard!

BIOMEDICAL ENGINEERING. BIOMEDICAL ENGINEERING. New Graduate Student Orientation Fall 2005 Welcome Aboard!. BIOMEDICAL ENGINEERING. Orientation Schedule. 9:15 Continental Breakfast- BME Conference room 9:45 Donna Beck - Engineering and Science Library

jana
Download Presentation

New Graduate Student Orientation Fall 2005 Welcome Aboard!

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. BIOMEDICAL ENGINEERING BIOMEDICAL ENGINEERING New Graduate Student OrientationFall 2005Welcome Aboard!

  2. BIOMEDICAL ENGINEERING Orientation Schedule 9:15 Continental Breakfast- BME Conference room 9:45 Donna Beck - Engineering and Science Library 10:30 Michele DiPietro - Eberly Center for Teaching Excellence 11:00 BME Staff Hilda Diamond – Associate Head Sandy Brenner Hill – Business Manager Christal Banks – Office Coordinator 11:30 Jeff Beyer - Counseling &Psychological Services 12:15 Todd Przybycien - BME Department Head 12:45 Lunch

  3. BIOMEDICAL ENGINEERING BME Office • Ms. Christal Banks, Office Coordinator (cbanks@andrew.cmu.edu) • Mailboxes, appointments, events • Mrs. Hilda Diamond, Associate Head (hd01@andrew.cmu.edu) • Degree progress and records issues • Course registration issues • Ms. Sandy Brenner-Hill, Business Manager (sb5v@andrew.cmu.edu) • Stipend and tuition issues • BME purchasing issues • Prof. Todd Przybycien, Head (todd@andrew.cmu.edu) • Advisor assignments • Programmatic issues • Problem solving • Prof. Jelena Kovacevic, Graduate Affairs Chair (jelenak@andrew.cmu.edu) • Coordination of qualifying exams • Coordination of grad student reviews • Degree requirements and petitions • Problem solving

  4. BIOMEDICAL ENGINEERING Student Introductions/Assignments • Ph.D. students • Jonathan Didier, CMU, BS ChE – open TE/biotech • Paul Glass, McGill Univ., BS ME – DiMartino/Sitti • Charles Jackson, Univ. Canterbury, BS EE - Kovacevic • Rowena Mittal, MIT, BS ChE - Washburn • Warren Ruder, MIT, BS ChE, ME - Antaki • Gail Siewiorek, Washington Univ, BS BME – open biomech • Steve Sun, Univ. Washington, BS Biochem - Washburn

  5. BIOMEDICAL ENGINEERING Department Overview Biomedical Image & Signal Informatics Computational Biomechanics & Devices Medical Robotics Molecular & Cellular Biotechnology Regenerative Medicine Biomedical Image & Signal Informatics

  6. BIOMEDICAL ENGINEERING Molecular & Cellular Biotechnology Carnegie Mellon • Bruce Armitage (Chem) – DNA-small molecule interactions, peptide nucleic acids • Mike Domach (ChE) –metabolic engineering, whole cell NMR, cell-tracking MEMS sensors • Steinar Hauan (ChE) – bioprocess and biosensor design and optimization • Todd Przybycien (BME & ChE) –protein separations, formulation, delivery; DNA formulation • Jim Schneider (ChE) –nucleic acid separation, formulation and delivery; interfacial interactions • Bob Tilton (BME & ChE) –protein adsorption; pharmaceutical dispersions; interfacial interactions

  7. BIOMEDICAL ENGINEERING Molecular & Cellular Biotechnology Carnegie Mellon • Jeanne VanBriesen (CEE)–biofilm control on inplants • Alan Waggoner (BSC) – fluorescence-based detection systems for biology and biotechnology

  8. BIOMEDICAL ENGINEERING Computational Biomechanics & Devices Carnegie Mellon • Cristina Amon (ME & ICES) –computational fluid dynamics for enhancing mass transfer and hemodynamic performance of intravenous membrane oxygenators • Jim Antaki (BME) –artificial heart/ventricular assist device design and control, blood flow modeling • Elena DiMartino (ICES) –computational fluid and solid mechanics, soft tissue mechanical characterization • Ender Finol (ICES) –computational fluid mechanics, endo vascular grafts for abdominal aortic aneurysms • Phil Leduc (ME) -linking mechanics to biochemistry through molecular and cellular biomechanics using nanotechnology-

  9. BIOMEDICAL ENGINEERING Biomedical Image & Signal Informatics Carnegie Mellon • Chien Ho (BSC) – tracking migration of immune cells in vivo by magnetic MRI • Jelena Kovacevic (BME) – wavelet-based signal and image processing • José Moura (ECE) – wavelet-based MRI signal processing • Bob Murphy (BME & BSC) – tracking receptor-mediated endocytosis; microscopic imaging and image analysis for protein localization • Rich Stern (ECE) – automatic speech recognition; signal processing in the auditory system • George Stetten (RI) – ultrasonic imaging

  10. BIOMEDICAL ENGINEERING Medical Robotics Carnegie Mellon • Jon Cagan (ME) –user-centered design; computational design • Takeo Kanade (RI) –smart tools to perform medical procedures, computer vision • Yoky Matsuoka (ME & RI) –neuromuscular rehabilitation and assistive robotic devices, motor control mechanisms in the CNS, artificial neural feedback • Kenji Shimada (ME) –computer modeling and simulation for product design, analysis, and manufacturing • Lee Weiss (RI) –computer-aided bone distraction

  11. BIOMEDICAL ENGINEERING Regenerative Medicine Carnegie Mellon • Jeffrey Hollinger (BME & BSC) –regenerating bone in patients with developmental craniofacial bone problems and geriatric patients • Prashant Kumta (BME & MSE) –biodegradable polymer-ceramic composite scaffolds for bone tissue engineering, nanoparticles for gene delivery • Phil Campbell (ICES) –growth factor association and dissociation with interstitia and proteolytic processing under physiological conditions • Newell Washburn (BME & Chem) – polymeric scaffold development • Lee Weiss (RI) – bone tissue engineering CAD/CAM

  12. BIOMEDICAL ENGINEERING New Faculty Arrivals Carnegie Mellon • Aug 2006Biomechanics:Kris Dahl (BME & ChE) – nuclear (cell) physics • Jan 2006Imaging/Cellular & Molecular Biotechnology:Stefan Zappe (BME) –bioMEMS, automated imaging, Drosophila systematics

  13. BIOMEDICAL ENGINEERING M.S. Requirements • 96 units (3 units ~ 1 credit hour) •  63 units grad coursework • Courses numbered xx-Nxx where N  5 • Must include 4 BME courses 42-Nxx •  24 units grad research • 42-888 MS Thesis Research • 42-886 Comprehensive Exam for MS Degree • Must have  36 units/semester to be full-time

  14. BIOMEDICAL ENGINEERING M.S. Typical Timeline Carnegie Mellon

  15. BIOMEDICAL ENGINEERING M.S. Defense • Basis • An original contribution (~ one archival paper) • knowledge in thesis area • approach and evaluation of results • Thesissummary of problem studied, logic of approach, results obtained, future opportunities • Oral defense • thesis committee • advisor • at least two CMU BME faculty • at least one CMU non-BME faculty • 30 min oral presentation • open Q&A

  16. BIOMEDICAL ENGINEERING Ph.D. Requirements • Direct Entry Ph.D. • Must satisfy Masters course requirements • Need not produce M.S. Thesis • Complete “Advanced Entry” Requirements • Advanced Entry Ph.D. • Must complete 96 units  32 credit hours of courses + research • No specific course requirements; advisor and student select courses to support research effort • Successfully complete three exams: • Ph.D. Qualifying Exam • Ph.D. Proposal Exam • Ph.D. Thesis Defense • Must have  36 units/semester to be full-time

  17. BIOMEDICAL ENGINEERING Ph.D. Requirements • All Ph.D. students complete three, 5-hr TA assignments • Gain exposure to the “other side of the desk” • Spread TA load

  18. BIOMEDICAL ENGINEERING Course Registration • Initial Scheduling – Mrs. Hilda Diamond • Key Courses • 42-801 Seminar (every semester) • 42-702 Advanced Physiology (if no prior coursework in physiology) • 06-608 Safety Issues in Science and Engineering Practice (for those whose research will involved lab work) • Complete schedule in consultation with advisor • On-line registration (OLR) via the HUB:http://www.cmu.edu/hub/hub.html

  19. BIOMEDICAL ENGINEERING Current BME Grad Courses • Fall • 42-501 Special Topics: Bone Tissue Regeneration – Hollinger • 42-702 Advanced Physiology – Campbell • 42-703 Advanced Bioimaging - Kovacevic • 42-711 Advanced Ceramic and Metallic Biomaterials - Kumta • 42-721 Biotechnology and Environmental Processes – Domach • Spring • 42-502 Special Topics: Cellular Biomechanics – LeDuc • 42-503 Advanced Signal and Biosignal Processing – Kovacevic • 42-710 Advanced Polymeric Biomaterials – Washburn • 42-722 BioProcess Design – Przybycien • 42-723 Biological Processes in Environmental Systems – VanBriesen • 42-734 Computational Biology - Murphy

  20. BIOMEDICAL ENGINEERING Ph.D. Typical Timeline Carnegie Mellon

  21. BIOMEDICAL ENGINEERING M.D./Ph.D. Typical Timeline Carnegie Mellon

  22. BIOMEDICAL ENGINEERING Ph.D. Qualifier – Current Configuration • Basis • research potential • communication skills • general BME knowledge • knowledge of literature • approach and evaluation of results • Written statement of researchTen page (max) summary of oral presentation content • Oral presentation of research • “focused” committee of 3 faculty members • advisor participates as silent observer • 30 min presentation • 45-60 min Q&A

  23. BIOMEDICAL ENGINEERING Ph.D. Qualifier – Current Configuration • Outcomes • Pass + comments • Retake + comments • Fail + comments; retake possible, but not recommended • Not a winnowing tool

  24. BIOMEDICAL ENGINEERING Ph.D. Grad Student Review • Objective: assess progress in program • Basis: • Research activities & progress • Course performance • TA performance • Format • Student prepares ~one page self-assessment • Student and advisor discuss self-assessment • Advisor prepares ~one-two paragraph feedback statement • Advisor reviews feedback in front of BME faculty, incorporates comments • Statements posted on grad review web site

  25. BIOMEDICAL ENGINEERING Ph.D. Grad Student Review – Cont’d • Outcomes: • Student in good standing + comments • Student deficient in x + comments, one review period to address deficiency • Posted on review web site along with degree progress information • Frequency – once a semester

  26. BIOMEDICAL ENGINEERING Ph.D. Proposal • Basis • potential for making important, original contributions • feasibility of proposed work • knowledge in thesis area • approach and evaluation of results • Written proposal • definition of thesis problem, specific aims, results to date and plan of attack • ~25 pages in NIH R01 “research description” format • Oral proposal • thesis committee • advisor(s) • at least two CMU BME faculty • at least one CMU non-BME faculty • 45 - 50 min presentation • open Q&A

  27. BIOMEDICAL ENGINEERING Ph.D. Defense • Basis • original contributions (~ 3 [or more] meaty archival papers) • knowledge in thesis area • approach and evaluation of results • Thesissummary of problem studied, logic of approach, results obtained, future opportunities • Oral defense • thesis committee – typically same as Prop Exam • advisor(s) • at least two CMU BME faculty • at least one CMU non-BME faculty • 45 - 50 min oral presentation • open Q&A

  28. BIOMEDICAL ENGINEERING Important Resources www.cmu.edu/bme www.cmu.edu/myandrew • BME main office phone 412-268-2521 bme-faculty@lists.andrew.cmu.edu bme-grad@lists.cmu.edu – all of you sb5v@andrew.cmu.edu X83444 - Sandy hd01@andrew.cmu.edu X82523 - Hilda cbanks@andrew.cmu.edu X83955 – Christal todd@andrew.cmu.edu X83857 – Todd

More Related