论文信息 - Passive landing gear using coupled mechanical design

Passive landing gear using coupled mechanical design

The ability of UAV's (Unmanned Aerial Vehicles) to land on unknown and uneven terrain is an important area of research, particularly for applications such as field surveillance. This paper presents a novel solution to this problem using mechanical design, with a legged landing gear design that provides both suspension and stability on uneven terrain. The key features of this design are differential loading across legs as well as a conditional locking mechanism that resists post-landing disturbances. Results from a prototype design show robust stability when landing on uneven surfaces inclined up to 20 degrees, with analysis of an optimally damped suspension profile (for an approximated mass spring damper system with constant damping).

Mandyam V. Srinivasan | Dean Soccol | Adam Postula | Samuel Baker

[1] Eric Feron,et al. Experiments with small helicopter automated landings at unusual attitudes , 2007, ArXiv.

[2] Robert D. Howe,et al. Towards grasping in unstructured environments: grasper compliance and configuration optimization , 2005, Adv. Robotics.

[3] Daniel D. Jensen,et al. The Sticky-Pad Plane and other Innovative Concepts for Perching UAVs , 2009 .

[4] M. Srinivasan,et al. The moment before touchdown: landing manoeuvres of the honeybee Apis mellifera , 2010, Journal of Experimental Biology.

[5] Christoph Hürzeler,et al. A perching mechanism for micro aerial vehicles , 2009 .

[6] Daniel Mellinger,et al. Control of Quadrotors for Robust Perching and Landing , 2010 .

[7] R. Stephenson. A and V , 1962, The British journal of ophthalmology.

[8] Mark A. Minor,et al. Avian-inspired passive perching mechanism for robotic rotorcraft , 2011, 2011 IEEE/RSJ International Conference on Intelligent Robots and Systems.

[9] Mark R. Cutkosky,et al. Landing and Perching on Vertical Surfaces with Microspines for Small Unmanned Air Vehicles , 2010, J. Intell. Robotic Syst..

[10] Mark R. Cutkosky,et al. Landing, perching and taking off from vertical surfaces , 2011, Int. J. Robotics Res..

[11] Gloria J. Wiens,et al. An Approach to Designing Passive Self-Leveling Landing Gear with Application to the Lunar Lander , 2010 .