Presentation is loading. Please wait.

Presentation is loading. Please wait.

Project Goals Design and build a fully submersible robotic fish platform powered by McKibben muscles Execute realistic fish motion with a fish-like appearance.

Published byRoland Barton Modified over 8 years ago

Similar presentations

Presentation on theme: "Project Goals Design and build a fully submersible robotic fish platform powered by McKibben muscles Execute realistic fish motion with a fish-like appearance."— Presentation transcript:

1

2 Project Goals Design and build a fully submersible robotic fish platform powered by McKibben muscles Execute realistic fish motion with a fish-like appearance Prove the feasibility of hydraulic, autonomous McKibben muscles Use the surrounding fluid as the actuation fluid

3 Background: What’s a McKibben Muscle? A fluid-pressure powered muscle Soft rubber tubing inside a braided sheath Radial expansion causes axial contraction Weaved Sleeve Pneumatic Bladder End Caps Air hose [1]

4 Background: What’s a McKibben Muscle? A fluid-pressure powered muscle Soft rubber tubing inside a braided sheath Radial expansion causes axial contraction Pressurized Fluid [1]

5 Why McKibben muscles? Smooth motion Lightweight, flexible Biomimetic High force to weight ratio [2] Applications to: – Soft or underwater robotics – Assistive technologies – Manufacturing [3]

6 Design Features Followed a formal design process, resulting in: Watertight polycarbonate enclosure Fluid system – Internal centrifugal pump – Solenoid valve bank – Hydraulic muscles Controls – Arduino, batteries, necessary circuitry – Bluetooth-controlled through smartphone app Motion parameters from literature – Body-caudal type locomotion, such as for salmon or bass – Can be represented as distinct segments with waveforms – Phase delay between waveforms captured in solenoid timing Appearance – Composite fiberglass shell with realistic paint-job – Rubberized Spandex fabric as tail skin [3]

7 Results

8

9 Summary Results: – Novel robotic design that utilizes hydraulic McKibben style muscles – Realistic, successful, inexpensive prototype – Future applications in underwater exploration Unique Design Features: – First autonomous design to utilize air muscles in hydraulic configuration – Uses surrounding medium as working fluid with no onboard storage requirements – Onboard controls with Bluetooth communication Applications – Underwater exploration – Military surveillance – Marine research

10 Acknowledgements

11 References [1] Laboratory, S. I., 2013, Development of High Hydraulic Pressure Mckibben Artificial Muscle and Its Application to Light Spreader, 8/6/13, http://www.act.sys.okayama- u.ac.jp/kouseigaku/research/2009/system/spreader/reseach_e.htmlhttp://www.act.sys.okayama- u.ac.jp/kouseigaku/research/2009/system/spreader/reseach_e.html [2] Meller, M. A., Tiwari, R., Wajcs, K. B., Moses, C., Reveles, I., and Garcia, E., 2012, “Hydraulically actuated artificial muscles,” p. 83401L–83401L–17, http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=1312623 http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=1312623 [3] Fickenscher, W., Warren, J., Taddeo, J., Jasinski, C., and Mason, E., 2014, P14253 Home, 7/17/14, http://edge.rit.edu/content/P14253/public/Home http://edge.rit.edu/content/P14253/public/Home [4] Jian-Xin, X., Qinyuan, R., Wenchao, G., and Xue-Lei, N., 2012, "Mimicry of Fish Swimming Patterns in a Robotic Fish," Proc. Industrial Electronics (ISIE), 2012 IEEE International Symposium on, pp. 1274-1279, http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=6237273&isnumber=6237048

Download ppt "Project Goals Design and build a fully submersible robotic fish platform powered by McKibben muscles Execute realistic fish motion with a fish-like appearance."

Similar presentations

Actuator: Pneumatic Artificial Muscles

Actuator: Pneumatic Artificial Muscles
Casey Dill – Team Lead Arthur Connors Andrew Torkelson.

Casey Dill – Team Lead Arthur Connors Andrew Torkelson.
A Canadian Hot Tub Factory Tour. You begin with a Quality Lucite Acrylic sheet. The shape is created by loading the sheet into a forming machine, heating.

A Canadian Hot Tub Factory Tour. You begin with a Quality Lucite Acrylic sheet. The shape is created by loading the sheet into a forming machine, heating.
Air Muscle Robotic Tiger P13029. Presentation Agenda Specs and Customer Needs Concept Summary Design Summary System Testing Results Successes and Failures.

Air Muscle Robotic Tiger P Presentation Agenda Specs and Customer Needs Concept Summary Design Summary System Testing Results Successes and Failures.
ECE5320 Mechatronics Assignment#01: Literature Survey on Sensors and Actuators Pneumatic Artificial Muscles (PAMs) Prepared by: Jeffrey Taylor A00815505.

ECE5320 Mechatronics Assignment#01: Literature Survey on Sensors and Actuators Pneumatic Artificial Muscles (PAMs) Prepared by: Jeffrey Taylor A
IE 447 COMPUTER INTEGRATED MANUFACTURING CHAPTER 9 Material Handling System 1 IE 447 - CIM Lecture Notes - Chapter 9 MHS.

IE 447 COMPUTER INTEGRATED MANUFACTURING CHAPTER 9 Material Handling System 1 IE CIM Lecture Notes - Chapter 9 MHS.
ROBOTUNA By: Ricky Garvie Dyl a n Kaplan Devin post.

ROBOTUNA By: Ricky Garvie Dyl a n Kaplan Devin post.
 Consultant ◦ Mike Zona (Xerox)  Sponsor ◦ Dr. Lamkin-Kennard Chris Anderson, Jon Gibson, Kurt Stratton, Josh Koelle.

 Consultant ◦ Mike Zona (Xerox)  Sponsor ◦ Dr. Lamkin-Kennard Chris Anderson, Jon Gibson, Kurt Stratton, Josh Koelle.
“Develop a Scalable Robotic Limb that Accurately Models All Degrees of Freedom of the Fingers.”

“Develop a Scalable Robotic Limb that Accurately Models All Degrees of Freedom of the Fingers.”
The Advanced Prosthetic Hand Project Jessica Reddy, IMSURE Fellow Mentor: Dr. William C. Tang.

The Advanced Prosthetic Hand Project Jessica Reddy, IMSURE Fellow Mentor: Dr. William C. Tang.
Pneumatic Hand Computer controlled pneumatics Project components:

Pneumatic Hand Computer controlled pneumatics Project components:
LABVIEW INTERFACE CONTROL LOGIC DESIGN FEATURES Pneumatic power source encapsulated by single connection Opposable muscles for full range of motion Independent.

LABVIEW INTERFACE CONTROL LOGIC DESIGN FEATURES Pneumatic power source encapsulated by single connection Opposable muscles for full range of motion Independent.
ME8843 The George W. Woodruff School of Mechanical Engineering ME 8843 Advanced Mechatronics Instructor: Professor Charles Ume Introduction to Hydraulic.

ME8843 The George W. Woodruff School of Mechanical Engineering ME 8843 Advanced Mechatronics Instructor: Professor Charles Ume Introduction to Hydraulic.
Pneumatic Actuators Brief Overview Kunal Sinha Grad General Engineering EFR : 2 per min.

Pneumatic Actuators Brief Overview Kunal Sinha Grad General Engineering EFR : 2 per min.
Intro to Fluid Power Topics What is fluid power? Where is it used?

Intro to Fluid Power Topics What is fluid power? Where is it used?
Sensors and Actuators John Errington MSc. Sensors and Actuators Sensors produce a signal in response to a change in their surroundings e.g. Thermostat.

Sensors and Actuators John Errington MSc. Sensors and Actuators Sensors produce a signal in response to a change in their surroundings e.g. Thermostat.
Project Manager: Zachary Novak Mechanical Design Lead: John Chiu Lead Engineer: Seaver Wrisley Controls and Instrumentation Lead: Felix Liu Team P14029:

Project Manager: Zachary Novak Mechanical Design Lead: John Chiu Lead Engineer: Seaver Wrisley Controls and Instrumentation Lead: Felix Liu Team P14029:
Underwater Robotic Fish Week 3 Review Presentation Project #15029 Multidisciplinary Senior Design Rochester Institute of Technology Phase II: Buoyancy.

Underwater Robotic Fish Week 3 Review Presentation Project #15029 Multidisciplinary Senior Design Rochester Institute of Technology Phase II: Buoyancy.
An Active Orthosis For Cerebral Palsy Children

An Active Orthosis For Cerebral Palsy Children
Chapter 10 Fluid Power Systems.

Chapter 10 Fluid Power Systems.

Similar presentations

Ads by Google