search

UMD     This Site





Computer-generated image shows objects in Earth orbit that are currently being tracked. 95% of the objects shown are orbital debris-not functional satellites. Image credit: NASA Orbital Debris Program Office

Computer-generated image shows objects in Earth orbit that are currently being tracked. 95% of the objects shown are orbital debris-not functional satellites. Image credit: NASA Orbital Debris Program Office

 

COLLEGE PARK, Md.—The University of Maryland (UMD) has announced the establishment of the Center for Orbital Debris Education and Research (CODER) to address critical issues in orbiting space debris and serve as a hub for academic, industry and government research collaboration.

"CODER is the first academically led center established to address the full range of issues surrounding the orbital debris problem," said founding faculty member and Associate Professor of Aerospace Engineering Raymond Sedwick. "Most existing organizations focus on just one aspect of the problem—tracking, modeling, remediation, mitigation, policy, etc.—but CODER will serve as a research collective to provide expertise in all of these areas."

Orbital debris is a global issue. The increasing volume of orbiting space debris could significantly hinder future economy and national security as the world's reliance on satellites for communications, research and defense grows. Orbiting debris can travel faster than three times the speed of a bullet and poses a threat to space-based communications, weather forecasting, commerce, scientific exploration, Earth observation and future space activities.

The past 50 years of space exploration and use have created an orbiting junkyard of debris. Over 22,000 pieces of space ‘junk’—10 centimeters or larger—are currently being tracked in Earth’s orbit. However, there is a much larger junkyard of smaller debris, with pieces numbering in the hundreds of thousands to millions that are beyond the scope of current tracking capabilities and are just as capable of causing significant damage.

Sedwick sees CODER as a nexus for bringing together resources and ideas from across government, industry and academic communities to advance research aimed at addressing the orbital debris issue.

There are several existing government, industry and academic organizations in the U.S. that already support critical functions for the orbital debris enterprise, but they are limited by their authority, capacity and budgets.  

"The goal of the center is to raise awareness and financial support, help to coordinate, conduct and establish collaborative research and ultimately to provide new funding streams to accelerate these efforts," said Sedwick, who is also Director of UMD’s Space Power and Propulsion Laboratory. "The University of Maryland is well-positioned to take the lead in creating a multi-disciplinary, multi-organizational, collaborative research center that will pursue orbital debris solutions through research in new technologies, policies and economic solutions.”

CODER will include a core interdisciplinary team at UMD to conduct and coordinate orbital debris research activities in science and technology as well as policy and economics. The center will spearhead research in each area of orbital debris, including modeling, tracking, mitigation and remediation, assist in developing international policies regarding orbital debris, and serve as a clearinghouse for orbital debris knowledge and findings.

The space community has worked hard to mitigate excessive proliferation of debris by establishing voluntary rules for spacecraft manufacturers and operators that help minimize the creation of new debris. However, there is no system or program in place to remove or clean up near-Earth orbit and there is no program addressing the long-term environmental control of space.

So far, debris has been a nuisance and has created minimal damage—the threat has been “acceptable”—because the cost of cleaning it up is so much greater than the satellite damage, thus far. But, in the not-too-distant future, the cost of continuous damage to satellites may approach, and exceed, the cost of cleaning up space. While any cleanup program will take years to implement and possibly decades to carry out, the future and efficacy of orbital operations lies in tackling this critical issue.

About CODER

The Center for Orbital Debris Education and Research (CODER) will address all issues related to orbital debris. These include technology and systems, space policy, economics, legal, and sociological issues. A long-term goal is the development of policies, laws and space systems that will lead to the efficient remediation and control of space environmental pollutants.

The center seeks domestic and international collaboration and inclusiveness and envisions multiple sources of government and industry support. CODER will be an international clearinghouse for research and educational programs that address orbital debris issues and it will be a focal point for idea interchange through conferences, meetings and outreach.

For more information: www.coder.umd.edu

 



Related Articles:
Paley selected for special recognition at Division of Research event
Brin Family Prize to Support Excellence in Drone-Related Activity
Olusola-Ajayi to Deliver Student Speech for Clark School Spring Commencement
Qu Wins NIST Grant
Espy-Wilson Featured in MIT’s Tech Review
Wu Wins 2015 Signal Processing Society Meritorious Service Award
UMD Researchers Creating First Onboard Fast-Charging System for Electric Vehicles
NSF Funds Novel Research to Create Scalable Wireless Networking, Averting Usage Crisis
Khaligh Wins Best Vehicular Electronics Paper Award for Third Time
Ph.D. Student Guannan Liu Develops Novel Micro-Heater

May 21, 2014


«Previous Story  

 

 

Current Headlines

Srivastava Named Inaugural Director of Semiconductor Initiatives and Innovation

State-of-the-Art 3D Nanoprinter Now at UMD

UMD, Partners Receive $31M for Semiconductor Research

Two NSF Awards for ECE Alum Michael Zuzak (Ph.D. ’22)

Applications Open for Professor and Chair of UMD's Department of Materials Science and Engineering

Ghodssi Honored With Gaede-Langmuir Award

Milchberg and Wu named Distinguished University Professors

New features on ingestible capsule will deliver targeted drugs to better treat IBD, Crohn’s disease

Forty years of MEMS research at the Hilton Head Workshop

Baturalp Buyukates (ECE Ph.D. ’21) Honored by IEEE ComSoc

 
 
Back to top  
Home Clark School Home UMD Home