Follow
Alex E. Holness
Alex E. Holness
Verified email at umd.edu
Title
Cited by
Cited by
Year
Robo Raven: a flapping-wing air vehicle with highly compliant and independently controlled wings
J Gerdes, A Holness, A Perez-Rosado, L Roberts, A Greisinger, E Barnett, ...
Soft Robotics 1 (4), 275-288, 2014
1452014
Optical calibration for nanocalorimeter measurements
P Swaminathan, BG Burke, AE Holness, B Wilthan, L Hanssen, TP Weihs, ...
Thermochimica acta 522 (1-2), 60-65, 2011
342011
Characterizing and modeling the enhancement of lift and payload capacity resulting from thrust augmentation in a propeller-assisted flapping wing air vehicle
AE Holness, HA Bruck, SK Gupta
International Journal of Micro Air Vehicles 10 (1), 50-69, 2018
222018
Design of propeller-assisted flapping wing air vehicles for enhanced aerodynamic performance
AE Holness, H Bruck, SK Gupta
International Design Engineering Technical Conferences and Computers and …, 2015
222015
Haptic controlled three-axis MEMS gripper system
AP Vijayasai, G Sivakumar, M Mulsow, S Lacouture, A Holness, TE Dallas
Review of Scientific Instruments 81 (10), 2010
202010
Design, manufacturing, and testing of Robo Raven
J Gerdes, A Holness, A Perez-Rosado, L Roberts, A Greisinger, E Barnett, ...
A. James Clark School of Engineering, 2014
122014
A design framework for realizing multifunctional wings for flapping wing air vehicles using solar cells
AE Holness, H Solheim, HA Bruck, SK Gupta
International Journal of Micro Air Vehicles 11, 1756829319836279, 2019
102019
Haptic controlled three degree-of-freedom microgripper system for assembly of detachable surface-micromachined MEMS
AP Vijayasai, G Sivakumar, M Mulsow, S Lacouture, A Holness, TE Dallas, ...
Sensors and Actuators A: Physical 179, 328-336, 2012
82012
Multifunctional wings with flexible batteries and solar cells for robotic birds
AE Holness, A Perez-Rosado, HA Bruck, M Peckerar, SK Gupta
Challenges in Mechanics of Time Dependent Materials, Volume 2: Proceedings …, 2017
72017
Performance characterization of multifunctional wings with integrated flexible batteries for flapping wing unmanned air vehicles
A Holness, E Steins, H Bruck, M Peckerar, SK Gupta
International Design Engineering Technical Conferences and Computers and …, 2016
72016
Flexible energy harvesting/storage structures for flapping wing air vehicles
A Holness, HA Bruck, SK Gupta
Fracture, Fatigue, Failure and Damage Evolution, Volume 7: Proceedings of …, 2018
42018
Mesoscale to microscale controlled manipulation of microscale objects using MEMS based microgripper and haptic interface
AP Vijayasai, G Sivakumar, M Mulsow, S Lacouture, A Holness, TE Dallas
Microfluidics, BioMEMS, and Medical Microsystems VIII 7593, 143-153, 2010
22010
MULTIFUNCTIONAL COMPLIANT WINGS TO HARVEST SOLAR ENERGY IN FLAPPING WING AIR VEHICLES
A Perez-Rosado, AE Holness, HA Bruck, SK Gupta
12017
Using Inertial Control to Improve Maneuverability of Propeller-Assisted Flapping Wing Aerial Vehicle
AE Holness, H Solheim, HA Bruck, SK Gupta
International Design Engineering Technical Conferences and Computers and …, 2019
2019
Strategies for Enhancing Performance of Flapping Wing Aerial Vehicles Using Multifunctional Structures and Mixed Flight Modes
AE Holness
University of Maryland, College Park, 2018
2018
Mesoscale to microscale manipulation using haptic interface and MEMS microgripper
T Dallas, A Vijayasai, A Holness, S Lacouture
2010
FLEXIBLE WINGS FOR HARVESTING AND STORING SOLAR ENERGY IN UNMANNED AIR VEHICLES
A Holness, LD Johnson, HA Bruck, SK Gupta
The system can't perform the operation now. Try again later.
Articles 1–17