Events Calendar

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Filter February Events by Event Type:

• Receptions & Special Events (5)
• Conferences, Lectures, & Seminars (55)
• University Calendar (6)
• Workshops & Infosessions (8)
• Student Activity (11)

Events for February 15, 2018

• Feb

  15

  Six Sigma Black Belt

  Thu, Feb 15, 2018 @ 09:00 AM - 05:00 PM

  Executive Education

  Conferences, Lectures, & Seminars

  
  

  Talk Title: Six Sigma Black Belt
  
  Abstract: Week 1: February 12-15, 2018
  Week 2: March 12-16, 2018
  Week 3: April 9-13, 2018
  9am - 5pm
  
  Learn the advanced problem-solving skills you need to implement the principles, practices, and techniques of Six Sigma to maximize performance and cost reductions in your organization. During this three-week practitioner course, you will learn how to measure a process, analyze the results, develop process improvements, and quantify the resulting savings. You will be required to complete a project demonstrating mastery of appropriate analytical methods and pass an examination to earn Six Sigma Black Belt Certificate. This practitioner course for Six Sigma implementation provides extensive coverage of the Six Sigma process, as well as intensive exposure to the key analytical tools associated with Six Sigma, including project management, team skills, cost analysis, FMEA, basic statistics, inferential statistics, sampling, goodness of fit testing, regression and correlation analysis, reliability, design of experiments, statistical process control, measurement systems analysis, and simulation. Computer applications are emphasized.
  
  NOTE: Participants must provide a windows based computer running Microsoft Office to the seminar.
  
  Host: USC Viterbi Executive Education
  
  More Info: https://viterbiexeced.usc.edu/engineering-program-areas/six-sigma-lean-certification/six-sigma-black-belt/
  
  

  Audiences: Registered Attendees

  View All Dates

  • Mon Feb 12, 2018
  • Tue Feb 13, 2018
  • Wed Feb 14, 2018
  • Thu Feb 15, 2018

  Contact: Viterbi Professional Programs

  Event Link: https://viterbiexeced.usc.edu/engineering-program-areas/six-sigma-lean-certification/six-sigma-black-belt/

  

• Feb

  15

  Grad Fest

  Thu, Feb 15, 2018 @ 10:00 AM - 06:00 PM

  Viterbi School of Engineering Student Affairs

  University Calendar

  
  

  Grad Fest is the Class of 2018's one-stop way to get all the information you need about Commencement. All soon-to-be graduates are encouraged to stop by for answers to questions, or to purchase Commencement-related products.

  Location: Ronald Tutor Campus Center (TCC) - Ballroom

  Audiences: Graduating Seniors

  Contact: Taylor Relich

  

• Feb

  15

  Aerospace and Mechanical Engineering Seminar

  Thu, Feb 15, 2018 @ 11:00 AM - 12:00 PM

  Aerospace and Mechanical Engineering

  Conferences, Lectures, & Seminars

  
  

  Speaker: Carlos Pantano, Professor/University of Illinois at Urbana-Champaign
  
  Talk Title: Flame Hole Dynamics Applied to the Modeling of Turbulent Nonpremixed Combustion
  
  Abstract: Turbulent diffusion flames can be quenched in regions of high strain owing to increased heat loss away from the reaction zone. These chemically inert regions are sometimes called flame holes (Dold et al. 1991). Turbulent flames with extinction are relevant in modern combustors where the flame temperature is kept low to reduce pollutant formation or in lifted jet flames used for thermal protection of the burner liner. Modeling the dynamical behavior of flame holes, without incorporating a detailed chemical-transport description, requires new numerical methods that describe the evolution in time of the flame boundary (or rim) on the moving stoichiometric surface. The kinematics of the flame rim is normally approximated as that of a two-dimensional edge flame whose speed of propagation is controlled by the local strain conditions. The computational challenge is the efficient numerical evolution of the flame rim using a state field defined on a two-manifold (of varying shape, and possibly multiply connected). In this talk, I will describe recent progress on the numerical and physical modeling of flame holes as it applies to turbulent nonpremixed flames with extinction. Special emphasis is made to achieve high-order of accuracy, flexibility, and robustness, while maintaining relatively low computational cost.
  
  Biography: Carlos Pantano received his Bachelor degree in Industrial Engineering with specialization in Electrical Engineering from the University of Sevilla in Spain. He received a Masters in Applied Mathematics from Ecole Centrale Paris in France, and a Masters and PhD in Mechanical Engineering from the University of California San Diego. He held a Senior Postdoctoral position in Engineering from 2000 to 2001 at the Office National d'Etudes et de Recherches Aerospatiales in France and then moved to the California Institute of Technology as a senior post-doctoral associate and later as a senior research scientist until 2006. Currently, he holds the rank of Professor in Mechanical Engineering at Illinois. Professor Pantano received the Presidential Early Career Awards for Scientists and Engineering (PECASE) in 2006. He is currently an Associate Fellow of the American Institute of Aeronautics and Astronautics (AIAA) and member of American Physical Society (APS), Society for Industrial and Applied Mathematics (SIAM), and the Combustion Institute.
  
  Host: Department of Aerospace and Mechanical Engineering
  
  

  Audiences: Everyone Is Invited

  Contact: Ashleen Knutsen

  

• Feb

  15

  Biomedical Engineering Department Guest Speaker

  

  Thu, Feb 15, 2018 @ 01:00 PM - 02:00 PM

  Alfred E. Mann Department of Biomedical Engineering

  Conferences, Lectures, & Seminars

  
  

  Speaker: Adam Rouse, MD, PhD, Research Assistant Professor of Neuroscience Schieber Finger Movement Laboratory, University of Rochester
  
  Talk Title: Brain-computer interfaces for the hand: Moving beyond linear models
  
  Abstract: The field of motor brain-computer interfaces (BCIs) has advanced dramatically. Our ability to accurately decode neural activity to directly control a cursor, robotic arm, or the patient's own muscles continues to improve. However, this control remains robotic and limited compared with natural human performance. Most BCI decoding relies on each neuron having a fixed and linear relationship to a given set of degrees of freedom. In experimental results from a reach-to-grasp task, Dr. Rouse will describe the sequential phases of movement observed with EMG, kinematic, and single-unit neurophysiologic recordings. He also will show the broad tuning throughout the entire upper forelimb region of primary motor cortex to both reach location and grasp object type and how it transitions between phases of the movement. Dr. Rouse will demonstrate why this sequential, selective tuning can serve as an important principle for BCI design. By using active dimension selection and four ethologically relevant dimensions of control, he will show how a simple 16 single unit BCI can efficiently control a virtual hand to achieve eight different postures with 93 percent accuracy, with average movement times of ~1 second. By analyzing large-dimensional datasets of joint kinematics, EMG, and neural activity, he focuses on understanding how neural populations can generate motor output across a broad dynamic range with speed and precision.
  
  Host: Ellis Meng, PhD
  
  

  Location: Corwin D. Denney Research Center (DRB) - 145/145A

  Audiences: Everyone Is Invited

  Contact: Mischalgrace Diasanta