Simulation of Tripod Gaits for a Hexapod Underwater Walking Machine

Schue, Charles A., Iii

Simulation of Tripod Gaits for a Hexapod Underwater Walking Machine

Active / Technical Report | Accession Number: ADA271719 |

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Abstract:

This thesis develops the mathematical relationships necessary to implement alternating tripod gaits on the hexapod underwater walking machine, AquaRobot. Analysis of documentation and application of Denavit-Hartenberg kinematic modeling techniques determine the fundamental vehicle parameters. Smooth leg motion models following elliptical and cycloidal trajectories are devised. Gait planning algorithms, using the elliptical smooth leg motion model, are developed for both discrete and continuous body motion. Statically stable, alternating tripod gait simulations are implemented in the C programming language. A stick figure graphics display allows examination and testing of the gait algorithms prior to incorporation in follow-on 3D graphics simulations or in real-time operation. Robotics, Walking Machines, Kinematics, AquaRobot.

Author(s):

Schue, Charles A., Iii

Author Organization(s):

NAVAL POSTGRADUATE SCHOOL MONTEREY CA

Descriptive Note:

Master's thesis,

Pagination:

0270

Security Markings

DOCUMENT & CONTEXTUAL SUMMARY

Distribution:

Approved For Public Release

Distribution Statement:

Approved For Public Release; Distribution Is Unlimited.

RECORD

Collection: TR

Identifying Numbers

Monitor Series:

NPS

Subject Terms

Joint Capability Areas:

JCA_5_Command and Control; JCA_5.1.1_Establish and Maintain Unity of Effort with Mission Partners; JCA_5.1_Organize; JCA_5.3_Planning; JCA_1.2.6_Concepts; JCA_5.5.2_Task; JCA_5.5_Direct; JCA_4.6_Engineering; JCA_1.2.3_Educating; JCA_1.2.5_Lessons Learned; JCA_4.1_Deployment and Distribution; JCA_4.3_Maintain

Modernization Areas:

Fully Networked C3; Quantum Science and Computing; Autonomy; Microelectronics

Communities of Interest:

C4I

Descriptor(s):

*MATHEMATICAL MODELS, *UNDERWATER VEHICLES, *ROBOTS, *TRIPODS, *TRACTION, KINEMATICS, ALGORITHMS, REAL TIME, COMPUTER PROGRAMMING, THESES, THREE DIMENSIONAL, LEGS, BODIES, TRAJECTORIES, VEHICLES, MACHINES, COMPUTER GRAPHICS, PLANNING, TIME, MOTION, PROGRAMMING LANGUAGES, PARAMETERS, COMPUTERIZED SIMULATION, STABILITY, ROBOTICS

Field(s)/Group(s):

Cybernetics, Submarine Engineering

Report Date:

1993 Jun 01