Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by
Crossref.
Chung, Jen Jen
Angel, Miguel
Soto, Trujillo
and
Sukkarieh, Salah
2012.
A new utility function for smooth transition between exploration and exploitation of a wind energy field.
p.
4999.
Ariff, Omar Kassim
Go, Tiauw Hiong
Wiriadidjaja, Surjatin
and
Zhahir, Amzari
2012.
Three Dimensional Path Planning Algorithm for Small UAVs Incorporating Existing Dynamic Soaring Heuristics.
Applied Mechanics and Materials,
Vol. 225,
Issue. ,
p.
403.
Frew, Eric
Elston, Jack
Argrow, Brian
Houston, Adam
and
Rasmussen, Erik
2012.
Sampling Severe Local Storms and Related Phenomena: Using Unmanned Aircraft Systems.
IEEE Robotics & Automation Magazine,
Vol. 19,
Issue. 1,
p.
85.
Gao, Chen
and
Liu, Hugh H.
2013.
Dynamic soaring surveillance in a gradient wind field.
Frew, Eric W.
Argrow, Brian
Houston, Adam
Weiss, Chris
and
Elston, Jack
2013.
An Energy-Aware Airborne Dynamic Data-Driven Application System for Persistent Sampling and Surveillance.
Procedia Computer Science,
Vol. 18,
Issue. ,
p.
2008.
Elston, Jack
and
Argrow, Brian
2014.
Energy efficient UAS flight planning for characterizing features of supercell thunderstorms.
p.
6555.
Fisher, Alex
Marino, Matthew
Clothier, Reece
Watkins, Simon
Peters, Liam
and
Palmer, Jennifer L
2015.
Emulating avian orographic soaring with a small autonomous glider.
Bioinspiration & Biomimetics,
Vol. 11,
Issue. 1,
p.
016002.
Gao, Xian-Zhong
Hou, Zhong-Xi
Guo, Zheng
and
Chen, Xiao-Qian
2015.
Energy extraction from wind shear: Reviews of dynamic soaring.
Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering,
Vol. 229,
Issue. 12,
p.
2336.
Yomchinda, Thanan
Horn, Joseph F
and
Langelaan, Jack W
2017.
Modified Dubins parameterization for aircraft emergency trajectory planning.
Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering,
Vol. 231,
Issue. 2,
p.
374.
Mir, Imran
Maqsood, Adnan
and
Akhtar, Suhail
2017.
Optimization of Dynamic Soaring Maneuvers for a Morphing Capable UAV.
Menezes, Amor A.
Shah, Dhaval D.
and
Kolmanovsky, Ilya V.
2018.
An Evaluation of Stochastic Model-Dependent and Model-Independent Glider Flight Management.
IEEE Transactions on Control Systems Technology,
Vol. 26,
Issue. 3,
p.
1040.
Mir, Imran
Maqsood, Adnan
and
Akhtar, Suhail
2018.
Biologically Inspired Dynamic Soaring Maneuvers for an Unmanned Air Vehicle Capable of Sweep Morphing.
International Journal of Aeronautical and Space Sciences,
Vol. 19,
Issue. 4,
p.
1006.
Mir, Imran
Maqsood, Adnan
Eisa, Sameh A.
Taha, Haitham
and
Akhtar, Suhail
2018.
Optimal morphing – augmented dynamic soaring maneuvers for unmanned air vehicle capable of span and sweep morphologies.
Aerospace Science and Technology,
Vol. 79,
Issue. ,
p.
17.
Mir, Imran
Eisa, Sameh A.
and
Maqsood, Adnan
2018.
Review of dynamic soaring: technical aspects, nonlinear modeling perspectives and future directions.
Nonlinear Dynamics,
Vol. 94,
Issue. 4,
p.
3117.
Mir, Imran
Taha, Haitham
Eisa, Sameh A.
and
Maqsood, Adnan
2018.
A controllability perspective of dynamic soaring.
Nonlinear Dynamics,
Vol. 94,
Issue. 4,
p.
2347.
Kikutis, Ramūnas
Stankūnas, Jonas
and
Rudinskas, Darius
2019.
AUTONOMOUS UNMANNED AERIAL VEHICLE FLIGHT ACCURACY EVALUATION FOR THREE DIFFERENT PATH-TRACKING ALGORITHMS.
Transport,
Vol. 34,
Issue. 6,
p.
652.
Wang, Ning
and
Karimi, Hamid Reza
2020.
Successive Waypoints Tracking of an Underactuated Surface Vehicle.
IEEE Transactions on Industrial Informatics,
Vol. 16,
Issue. 2,
p.
898.
Perez, Ruben E.
Arnal, Jose
and
Jansen, Peter W.
2020.
Neuro-Evolutionary Control for Optimal Dynamic Soaring.
Mir, Imran
Eisa, Sameh A
Taha, Haithem
Maqsood, Adnan
Akhtar, Suhail
and
Islam, Tauqeer Ul
2021.
A stability perspective of bioinspired unmanned aerial vehicles performing optimal dynamic soaring.
Bioinspiration & Biomimetics,
Vol. 16,
Issue. 6,
p.
066010.
Mohamed, A.
Taylor, G. K.
Watkins, S.
and
Windsor, S. P.
2022.
Opportunistic soaring by birds suggests new opportunities for atmospheric energy harvesting by flying robots.
Journal of The Royal Society Interface,
Vol. 19,
Issue. 196,