UROP Research Mentor Project Submission Portal: Submission #817

serial: '817'
sid: '14711'
uuid: cccc83b0-16b0-4eac-972b-dc7fa8c4dc78
uri: /urop-research-mentor-project-submission-portal
created: '1723824514'
completed: '1723824514'
changed: '1724690585'
in_draft: '0'
current_page: ''
remote_addr: 98.192.155.84
uid: '0'
langcode: en
webform_id: urop_project_proposal_portal
entity_type: node
entity_id: '1116'
locked: '0'
sticky: '0'
notes: ''
metatag: meta
data:
  roundtable_info: {  }
  approximately_how_many_hours_a_week_would_the_research_assistant: '10'
  are_you_currently_looking_for_students_: 'Yes'
  confirmation_1: '1'
  contact_email_fsu_email: ''
  contact_email_fsu_email2: ''
  contact_email_fsu_email_if_affiliated_: hwu8@fsu.edu
  faculty_advisor_confirmation: ''
  faculty_advisor_name: ''
  faculty_advisor_s_fsu_email: ''
  fsu_college: 'FAMU-FSU College of Engineering'
  fsu_department_if_applicable_: 'Mechanical Engineering'
  headshot_optional_: ''
  if_the_project_location_is_off_campus_does_the_student_need_to_p: 'There is a shuttle connecting the COE campus and main campus'
  mentoring_philosophy: |-
    My mentoring philosophy centers on empowering mentees to achieve their goals by fostering an environment of mutual respect, active learning, and personal growth. I begin by identifying each mentee’s unique aspirations and understanding their current knowledge base. This allows me to tailor my guidance, building on their strengths and addressing areas for improvement. I believe in giving mentees ownership of their work, which not only promotes accountability but also instills a sense of pride and responsibility in their progress.

    Sharing my own experiences, both successes and failures, helps create a relatable and open atmosphere where mentees feel safe to take risks and learn from mistakes. I strive to create an interactive learning environment where inquiry is encouraged, and challenges are viewed as opportunities for growth. By identifying what motivates each mentee, I can inspire them to push their boundaries while providing the necessary support to navigate obstacles.

    Ultimately, my goal is to guide mentees toward becoming independent thinkers who are confident in their abilities, equipped with the tools to continue learning, and prepared to contribute meaningfully to their fields.
  mentor_handbook_and_faqs: '1'
  name_of_other_faculty_collaborator_if_applicable_: ''
  number_of_assistants_needed_faculty_postdoc_max_6_graduate_stude: '3'
  other_faculty_collaborator_s_preferred_pronouns: ''
  overall_research_project_description: 'Wall shear stress is crucial in analyzing complex flows, such as supersonic boundary layers, three-dimensional separation, and shock-boundary layer interactions. However, experimentally measuring the shear stress across large surface areas poses significant challenges. The state of the art methods include discrete physical sensors and oil film​. Across a range of 2-D and 3-D flows, various implementations of oil film interferometry (OFI) have been used to calculate shear stresses along bands/drops of oil from the subsonic to supersonic Mach regimes​. Existing technologies typically allow mean stress detection only at limited points or within small domains, which is insufficient for capturing large-scale flow structures. This research proposes to overcome these technical challenges by employing holography methods to measure steady and unsteady shear stresses over a large surface. '
  please_add_any_additional_information_here: ''
  please_provide_a_link_to_your_publications_a_video_clip_or_a_web: 'https://scholar.google.com/citations?user=yX2Yxn8AAAAJ&hl=en'
  please_select_the_choice_that_most_accurately_describes_your_exp: 'Partially Remote'
  please_select_the_location_of_your_project_: 'FAMU-FSU College of Engineering'
  position_availability_for_student_research: 'Flexible schedule'
  position_title: Faculty
  primary_research_mentor_name: 'Huixuan Wu'
  project_keywords: 'Supersonic flow, laser technology, holography, AI-based image processing, 3D printing, microfluidic manufacture'
  relevant_student_major_s_: |-
    Mechanical Engineering
    Industrial Engineering
    Electric Engineering
    Physics
    Mathematics
  research_mentor_preferred_pronoun2: ''
  research_mentor_pronouns: ''
  research_mentor_supervisor_if_different_from_above_: ''
  research_tasks_for_student_research_assistant_s_: |-
    Literature review, 
    experiment design,
    data collection,
    data analysis
  roundtable_times_and_zoom_links: ''
  skills_that_research_assistants_may_need_: |-
    Required:
    Programming, basic knowledge about optics and laser, basic skills to use CAD software 

    Recommended: 
    Python programming, 

    Preferred:
    Familiar with AI, understand holography, have experience with 3D printing
  title_of_the_project: 'Large-scale surface shear stress measurements using a hair sensor array '
  update_url: 'https://cre.fsu.edu/urop-research-mentor-project-submission-portal?token=S-UzC2EQw4AIhSkZRQdeXBS5fIXmRM5rqI1aqm8TLNo'
  urop_performance_evaluation: '1'
  urop_poster_presentation: '1'
  when_potential_research_assistants_are_reaching_out_via_email_2: ''
  when_potential_research_assistants_are_reaching_out_via_email_wh: ''
  when_students_are_reaching_out_via_email_what_is_your_preferreda: ''
  would_you_like_to_participate_in_the_urop_research_mentor_round2: 'No'
  would_you_like_to_participate_in_the_urop_research_mentor_roundt: ''
  year: '2024'