search

UMD    CORE





The University of Maryland Morpheus Laboratory has officially announced the establishment of the Alexander Brown Center for Adaptive Aerospace Vehicle Technology at the National Institute of Aerospace (NIA), Hampton, Virginia. The Center is located in the new NIA Research and Innovation Laboratories building at 1100 Exploration Way across the street from NIA?s headquarters building. It is a 14-laboratory, 60,000-square-foot building that houses research and development facilities, including a wind tunnel, an unmanned aerial vehicles structures lab (Morpheus Lab), and a boron nitride nanotube development lab, among others. The new facility also hosts the Peninsula Technology Incubator (PTI), a subsidiary of NIA, which encourages entrepreneurship.

The Center and the Morpheus Lab?s research support have come from grants from DARPA-DSO, DARPA-TTO, AFOSR, NSF, and the Minta Martin Foundation. Recently, an AFOSR grant was renewed to continue its innovative work in the passive morphing of SUAVs. Existing facilities include a 2? x 6? Wind Tunnel, and an anechoic chamber all of which is available for MAV and small VTOL studies. ?We have a significant number of flight-ready, small-scale (10 foot wing span or less) fixed, rotary, and flapping-wing research vehicles,? says Center founder and Director Dr. James E. Hubbard, Jr. Other existing equipment includes a 6 DOF load cell and test stand capable of evaluating the performance of small scale flapping wing and rotary vehicles, and a full machine shop including a numerically controlled milling machine for making small parts.

The Center recently enhanced its experimental research capabilities with a Fortus 3D printer capable of printing parts up to 2 feet in span. This high resolution rapid prototyping machine is used for fabricating small airfoils and other custom interface parts. Also a small-scale low Reynolds number Water Tunnel with a three-axis force balance system is used to conduct systematic low Reynolds number aerodynamic tests.

The Morpheus Lab, located within the Center keeps a substantial inventory of smart and active materials to develop biomimetic devices that enable the realization of MAV flight geometries inspired by nature. A virtual reality flight simulator is used to train students in the use and flight of its fleet of RF-controlled aircraft. There is a local RF aircraft airport in Newport News that is available for non-research practice flights and keeps all of the students well-grounded in the realities of flight-based research. Finally, several multi-processor high speed computers are available to support modeling and simulation research.

The center was named after Alexander Brown, a promising Ph.D. student in the aerospace program, who tragically passed away in 2011. The naming of the center serves to memorialize Alex's innovative spirit. Dr. Hubbard, Jr., who made a pledge of $25,000 toward the formation of an Alex Brown Memorial graduate scholarship reports that the pledge has been fulfilled, with the support of the Brown Family and friends, and he hopes to award the first graduate scholarship in FY 2013-2014. Please visit the Alexander Brown Memorial Graduate Fund site to learn more about the scholarship, making a contribution, and Alexander Brown's life.

April 4, 2013


«Previous Story  

 

 

Current Headlines

University of Maryland School of Engineering Announces Unprecedented Investment from A. James & Alice B. Clark Foundation

UAS Test Site Expert Available to Comment on UAS Integration Pilot Program

UMD Researchers Receive Funding to Further Study ‘Fire Whirls’

UMD Opens Outdoor Flight Laboratory to Advance Autonomy, Robotics

UMD Teams Place 1st at AHS International's 34th Annual Student Design Competition

Relive Totality With Clark School Images, Videos

Hubbard Co-Authors New Book on Flexible Multi-Body Dynamics for Flapping Wing Vehicles

Davidson and Plotkin Selected as 2017-2018 Philip Merrill Presidential Scholars

UAS Test Site Hosts International Justice System Workshop Participants

Intern Designs Payload Integration System for NASA

 
 
Back to top  
CORE Home Clark School Home UMD Home Aerospace Engineering