Is this project an undergraduate, graduate, or faculty project?
Undergraduate
Project Type
group
Campus
Daytona Beach
Authors' Class Standing
Ivy - Senior Lenny - Senior Torsten - Senior
Lead Presenter's Name
Leonard Farrell
Lead Presenter's College
DB College of Engineering
Faculty Mentor Name
Monica Garcia
Abstract
Pipelines are an integral part of modern infrastructure. Whether they are installed inside, outside, or underground these systems require inspection and maintenance. The customer for this senior design project needs a robot that can maneuver through pipes, allow a user to perform visual inspections, and remove obstructions. The robots found through background research are insufficient solutions given that none of them fully fulfill the customer’s requirements. Project McClane seeks to resolve these insufficiencies by improving upon existing pipe crawlers and bio-inspired robotic solutions. The team has made progress with customer contact, generating an initial requirements list, and conducting an initial literature review. Traditionally a solution is designed around a given problem and a set of requirements. Due to the undefined scope of the customer’s needs the design process will diverge from tradition. A test structure made of pipes will be created first to constrain the problem and provide bounds in which the team can then design the pipe crawler. This project may provide a novel solution that can benefit a wide variety of industries for pipe inspection and maintenance applications.
Did this research project receive funding support (Spark, SURF, Research Abroad, Student Internal Grants, Collaborative, Climbing, or Ignite Grants) from the Office of Undergraduate Research?
No
Project McClane: Developing a Pipe Inspection Robot
Pipelines are an integral part of modern infrastructure. Whether they are installed inside, outside, or underground these systems require inspection and maintenance. The customer for this senior design project needs a robot that can maneuver through pipes, allow a user to perform visual inspections, and remove obstructions. The robots found through background research are insufficient solutions given that none of them fully fulfill the customer’s requirements. Project McClane seeks to resolve these insufficiencies by improving upon existing pipe crawlers and bio-inspired robotic solutions. The team has made progress with customer contact, generating an initial requirements list, and conducting an initial literature review. Traditionally a solution is designed around a given problem and a set of requirements. Due to the undefined scope of the customer’s needs the design process will diverge from tradition. A test structure made of pipes will be created first to constrain the problem and provide bounds in which the team can then design the pipe crawler. This project may provide a novel solution that can benefit a wide variety of industries for pipe inspection and maintenance applications.