Your search keyword '"Tom Ebert"' showing total 11 results

1. Dynamic Anchoring in Soft Regolith: Testing and Prediction

Author

Tom Ebert and Pierre M. Larochelle

Subjects

Mechanical Engineering, 0211 other engineering and technologies, Aerospace Engineering, Anchoring, 04 agricultural and veterinary sciences, 02 engineering and technology, Regolith, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, General Materials Science, Geotechnical engineering, Geology, 021101 geological & geomatics engineering, Civil and Structural Engineering

Abstract

In recent decades, the exploration of celestial bodies has moved to surface-based landers and rovers designed to perform experiments on the ground. The presented research focuses on legged ...

Published

2018

2. Motivating STEM Studies Through a Space Exploration Robotics Summer Camp

Author

Tom Ebert, Pierre M. Larochelle, Sida Du, Ismayuzri Bin Ishak, Xiaoyang Mao, Mark B. Moffett, Jihang Li, and Jugesh Sundram

Subjects

Architectural engineering, Engineering, business.industry, ComputingMilieux_COMPUTERSANDEDUCATION, Summer camp, Robotics, Artificial intelligence, business, Simulation, Space exploration

Abstract

In order to motivate the pursuit of and interest in a STEM curriculum for 12–17 year olds, an interactive space exploration robotics camp was developed by the Robotics and Spatial Systems Laboratory at the Florida Institute of Technology. The camp incorporated hands-on activities to explain robots and their practical uses. Problem solving with the versatile robot became the underlying theme of the camp under the guise of a space mission to Jupiter’s moon, Europa. Team building exercises were designed and executed during the camp to teach about engineering and problem solving. Through teamwork, discussions, patience, and dexterity the two teams of the camp successfully completed the simulated mission to save the fictitious base on Europa. The summer camp curriculum was original work developed by RASSL to provide young people with an introduction to robotics. This paper discusses the robot kit development, the activities created for the week, the group competitions, the insight learned by RASSL, and the participant feedback about the camp. This work may be used as a template for creating a small scale robotics camp hosted by a university or high school robotics lab or club.

Published

2016

3. Simulation of soft regolith dynamic anchors for celestial exploration

Author

Tom Ebert and Pierre M. Larochelle

Subjects

020301 aerospace & aeronautics, Traverse, Computer science, business.industry, Lunar regolith simulant, Comet, Terrain, 02 engineering and technology, 01 natural sciences, Regolith, 010305 fluids & plasmas, Orbit, 0203 mechanical engineering, Impact crater, 0103 physical sciences, Aerospace engineering, business, Robotic arm, Simulation

Abstract

Recent exploration missions to celestial bodies have shown an increasing demand for surface based landers and rovers designed to perform experiments on the ground, rather than relying purely on traditional orbiting observatories. Many of the scientifically interesting locations have proven hazardous and difficult to reach and traverse, driving the need for different methods of locomotion. Some of these locations lie in deep, permanently shadowed craters or in rocky, highly uneven landscapes. Various wheeled, flying, jumping, and legged rovers have been proposed. Those chosen for development have experienced both success and problems alike. Even stationary landers, such as the Philae lander which attempted to perform a controlled landing onto a comet surface, encountered unforgiving terrain causing it to bounce multiple times due to the ineffectiveness of its two on-board anchoring mechanisms. A new generation of legged rovers and landers is envisioned to utilize dynamic anchors on the feet of its legs to claw into the surface, engaging and disengaging with each step or landing. A method for simulating and evaluating the performance of these dynamic anchors is proposed to aid in-progress surface missions with relatively quick response to new target data. Discrete Element Method software is used to simulate a lunar-like regolith medium and the interaction of a dynamic anchor with this medium. The engagement, holding, and disengagement forces are recorded during this simulation. Physical testing was performed by using a robotic arm to engage a series of anchors with a lunar regolith simulant while measuring the same three forces as the simulation. The actual test data efficient anchor geometry as determined during testing is compared to predicted data to evaluate the simulation accuracy. Calibration testing to determine suitable simulation parameters is also presented. Results show the applicable forces can be predicted well within an order of magnitude, but improvements are possible to predict soil behavior more accurately.

Published

2016

4. Free-Flying Robotic System for Interplanetary Prospecting and In Situ Resource Utilization

Author

Zachery Kern, Michael DuPuis, Richard J. Prazenica, Kris Zacny, Hever Moncayo, Andres E. Perez, Robert P. Mueller, and Tom Ebert

Subjects

Robotic systems, business.industry, Prospecting, Environmental science, In situ resource utilization, Aerospace engineering, business, Interplanetary spaceflight

Published

2016

5. Control Laws Development for a Free-Flying Unmanned Robotic System to Support Interplanetary Bodies Prospecting and Characterization Missions

Author

Mike Dupuis, Hever Moncayo, Robert P. Mueller, Kris Zacny, Tom Ebert, Richard J. Prazenica, and Andres E. Perez Rocha

Subjects

Inversion (meteorology), In situ resource utilization, 02 engineering and technology, 01 natural sciences, 010309 optics, Robotic systems, Geography, Law, 0103 physical sciences, Scalability, 0202 electrical engineering, electronic engineering, information engineering, Local environment, 020201 artificial intelligence & image processing, Interplanetary spaceflight, Flight computer, Simulation testing

Abstract

In situ Resource Utilization (ISRU) facilitates planetary exploration by drawing needed resources, such as water, from the local environment. However, the extreme nature of these environments require the development of advanced unmanned space systems integrated with sample-capture devices to achieve the ultimate goal of prospecting these resources. This paper presents the design, development and Hardware-in-the-Loop (HIL) simulation testing of guidance and tracking control laws for an autonomous small marsupial free-flyer prospector system. The control laws are based on an extended non-linear dynamic inversion (NLDI) approach and its implementation is illustrated through HIL simulation using a mathematical model of an autonomous vehicle research platform developed by NASA Kennedy Space Center. This vehicle has been designed to support the development, testing and validation of algorithms for safe, reliable, and scalable control space missions with minimal need for human intervention in complex, unstructured environments. The main objective of the control laws is to minimize 3-axis distances with respect to a desired trajectory and maintain stability and adequate performance in the presence of uncertainties. The performance of the control laws is evaluated during autonomous flight in terms of trajectory tracking errors, real-time execution on board the flight computer, and control activity at nominal and dynamically-changing conditions. The results show that for all mission cases investigated the control laws approach has desirable capabilities and is reliable for in-flight testing operation as a next step towards the validation and verification of this configuration.

Published

2016

6. Vision-Aided Navigation for a Free-Flying Unmanned Robotic System to Support Interplanetary Bodies Prospecting and Characterization Missions

Author

Tennyson Samuel John, Richard J. Prazenica, Kris Zacny, Tom Ebert, Robert P. Mueller, Zachery Kern, Hever Moncayo, and Michael DuPuis

Subjects

020301 aerospace & aeronautics, 0209 industrial biotechnology, Landmark, Computer science, business.industry, Real-time computing, In situ resource utilization, 02 engineering and technology, Accelerometer, Object detection, 020901 industrial engineering & automation, 0203 mechanical engineering, Inertial measurement unit, Control system, Global Positioning System, Interplanetary spaceflight, business, Remote sensing

Abstract

This paper investigates vision-aided navigation strategies for an autonomous free-flying robotic vehicle designed to explore interplanetary bodies, such as moons or asteroids, for the purposes of In Situ Resource Utilization (ISRU). ISRU has the potential to facilitate planetary exploration by drawing needed resources, such as water, from the local environment. The realization of ISRU requires the development of advanced unmanned space systems integrated with sample-capture devices and guidance, navigation, and control systems capable of supporting autonomous exploration of challenging environments such as craters and lava tubes. Navigation on interplanetary bodies is challenging due to the unavailability of traditional navigation sesnors such as GPS and magnetometers. This paper focuses on the use of one or more vision sensors to augment an onboard inertial measurement unit, which is composed of accelerometers and rate gyros, in order to provide vision-aided navigation solutions for the free-flyer robotic system. In this study, a vision-aided navigation strategy is considered that entails using object detection and tracking algorithms to identify known landmarks in the scene, which provides information that can be used to estimate the position of the vehicle within the environment. Vision-aided navigation filters are developed for a stereo implementation of landmark detection and tracking, and the algorithms are implemented on video obtained from flights of a quadrotor UAV at the Hazard Field at the NASA Kennedy Space Center.

Published

2016

7. MicroDrill Sample Acquisition System for Small Class Exploration Spacecrafts

Author

Phil Chu, J. Spring, D. Neal, Michael DuPuis, Kris Zacny, E. Mumm, B. Mellerowicz, Gale Paulsen, Robert P. Mueller, M. Hedlund, and Tom Ebert

Subjects

Engineering, Drill, Spacecraft, business.industry, Planet, Software deployment, Payload, Sample (material), Aerospace engineering, business, Coring, Space exploration, Simulation

Abstract

The paradigm for space exploration is changing. Large and expensive missions are very rare and the space community is turning to smaller, lighter, and less expensive missions that could still perform great exploration. These missions are also within reach of commercial companies such as the Google Lunar X Prize teams that develop small scale lunar missions. Recent commercial endeavors such as “Planet Labs inc.” and Sky Box Imaging, inc. show that there are new benefits and business models associated with miniaturization of space hardware. The MicroDrill is part of the ongoing effort to develop “Micro Sampling” systems for deployment by these small spacecrafts with limited payload capacities. The ideal applications include prospecting missions to the Moon and Asteroids. This paper describes development and testing of the “MicroDrill” system. The MicroDrill is a rotary-percussive coring drill that captures cores 7 mm in diameter and up to 2 cm long. The drill weighs approximately 1 kg and can capture a core from a 40 MPa strength rock within a few minutes, with less than 10 Watt power and less than 10 Newton of preload.

Published

2015

8. Regolith Advanced Surface Systems Operations Robot (RASSOR)

Author

Jonathan D. Smith, Robert P. Mueller, A. J. Nick, Jason M. Schuler, Tom Ebert, and Rachel E. Cox

Subjects

Consumables, Impact crater, Berm, Robot, Environmental science, Shields, Water ice, Regolith, Astrobiology

Abstract

Regolith is abundant on extra-terrestrial surfaces and is the source of many resources such as oxygen, hydrogen, titanium, aluminum, iron, silica and other valuable materials, which can be used to make rocket propellant, consumables for life support, radiation protection barrier shields, landing pads, blast protection berms, roads, habitats and other structures and devices. Recent data from the Moon also indicates that there are substantial deposits of water ice in permanently shadowed crater regions and possibly under an over burden of regolith. The key to being able to use this regolith and acquire the resources, is being able to manipulate it with robotic excavation and hauling machinery that can survive and operate in these very extreme extra-terrestrial surface environments.

Published

2013

9. Abstracts

Author

C. A. Botero, C. E. Smith, C. Holbrook, A. C. Pinchak, David Johnson, Dorothy Thomson, Taras Mycyk, M. Burbridge, Irvin Mayers, nR. W. M. Wahba, F. Belque, S. J. Kleiman, Steven Parker, Peter Cox, Helen Holtby, Lawrence Roy, Marc A. St-Amand, John M. Murkin, Donna Baird, Donal B. Downey, Alan H. Menkis, Fan Yang, Éric Troncy, Martin Francœur, Marc Charbonneau, Patrick Vinay, Gilbert Blaise, William M. Splinter, David J. Roberts, Elliot J. Rhine, Helen B. MacNeill, Craig W. Reid, William PS McKay, Miklavs Erjavec, Benjamin W. S. McKay, Peter H. Gregson, Travis Blanchet, Guy Kember, Josée Lavoie, Daniel Vischoff, Louise Cyrenne, Edith Villeneuve, Pierre Williot, A. K. Raghupathy, R. Haug, B. Punjabi, F. Ditzig, Howard Melnik, Michael J. Tessler, L. Jill Krasner, David M. Corda, Kal Solanki, A. Joseph Layon, T. James Gallagher, Daniel P. Stoltzfus, Shannon L. Rabuka, Carol A. Moote, Robert J. B. Chen, Doreen A. Yee, Ellen Harrington, Beverley A. Orser, D. Mitch Giffin, Kenneth W. Gow, P. Terry Phang, Keith R. Walley, C. Brian Warriner, Matthew H. Cohen, Andrew J. Klahsen, Deirdre O’Reilly, John McBride, Margaret Ballantyne, Blair D. Goranson, Scott Lang, William N. Dust, Jeff McKerrell, Guy Martin, René Martin, Daniel Martin, Philippe Valet, Jean-Pierre Tétrault, Caroline Dagenais, Martine Pirlet, Dominique Dansereau, Pedro D’Orléans-Justes, Agnès Jankowska, Yves Veillette, Angela L. Mathieson, Howard Intrater, Lionel Cruickshank, P. C. Duke, B. Y. Ong, Vincent Woo, Donna Schimnowski, Sharon Trosky, Linda Dalton, Ibrahim Zabani, Colin R. Chilvers, Himat Vaghadia, Pamela M. Merrick, Ibrahim Kashkari, Hossam Al-Oufi, D. Jolly, B. T. Finucane, Wolfgang Weyland, Ulrich Fritz, Heike Landmann, Ingrid Schumacher, Michael English, Dietrich Kettler, Catherine M. Duffy, Pirjo H. Manninen, Frances Chung, Shanthini Sundar, Emilio B. Lobato, Orlando Florete, Glenn B. Paige, Thierry Daloze, Daniel A. Chartrand, Denis St-Laurent, Gordon S. Fox, Murray L. Rice, D. John Doyle, George A. Volgyesi, Joseph A. Fisher, Arthur Slutsky, Igor Salazkin, Karen A. Brown, Pradeep Kulkarni, Bibiana Cujec, Randy McCuaig, Tom Hurst, David Antecol, François Bellemare, Jacques Couture, Manon Marchand, Peter McNeil, Orlando Hung, Lily M. Ho-Tai, J. Hugh Devitt, Alva G. Noel, Michael P. O’Donnell, Robert J. Greenhow, Frank W. Cervenko, Brian Milne, Mark D. Peterson, Ian R. Thomson, Robert J. Hudson, Morley Rosenbloom, Michael Moon, Jitender Sareen, H. Locke Bingham, Steven B. Backman, Reuben D. Stein, C. Polosa, Michael Tessler, Salvatore M. Spadafora, John G. Fuller, Lisa Kim, Keyvan Karkouti, D. Keith Rose, Lorraine E. Ferris, DK Rose, MM Cohen, F. E. Ralley, B. DeVarennes, M. Robitaille, Norman Searle, Raymond Martineau, Peter Conzen, A. Al-Hasani, Tom Ebert, Michael Muzi, Jean-François Hardy, Sylvain Bélisle, André Couturier, Danielle Robitaille, Micheline Roy, Lyne Gagnon, Elisabeth J. Avraamides, P. J. Dryden, J. P. O’Connor, W. R. E. Jamieson, I. Reid, D. Ansley, H. Sadeghi, L. H. Burr, A. I. Munro, P. M. Merrick, Mark Benaroia, Andrew Baker, C. David Mazer, Lee Errett, Luc Frenette, Jerry Cox, Donna Kerns, Steve Pearce, David Mark, Paul McDonagh, Lulz DeLlma, Howard Nathan, Jean-Yves Dupuls, J.Earl Wynands, G. C. Moudgil, J. G. Johnson, G. M. Moudgil, Richard I. Hall, Connie MacLaren, M. J. Ali, M. Ballantyne, D. Norris, Stephen D. Beed, Eugene A. Menard, Leon P. Noel, Gary G. Bonn, William Clarke, H. Marion Gould, Leslie E. Hall, Philippe Bernard, Juan Bass, Ramona A. Kearney, Cheryl A. Mack, Lucy M. Entwistle, Joan C. Bevan, Andrew J. Macnab, Guy Veall, Colin Marsland, Craig R. Ries, Shahnaz K. Hamid, Ian R. Selby, Nancy Sikich, Elizabeth Hsu, Patricia McCarthy, Ching-Yue Yang, Wun-Chin Wu, Jiunn-Jye Huang, Shyu-Yin Chen, Hsiang-Ning Luk, Chok-Yung Chai, Gina K. Lafreniere, Donald G. Brunet, Joel L. Parlow, Hossam El-Beheiry, Aviv Ouanounou, Mary Morris, Peter Carlen, Pamela J. Morgan, Roger Chapados, Marlene Gauthier, John W. D. Knox, Jacques LeLorier, Roddy Lin, Keith Rose, Bernadette Garvey, Robert McBrobm, L. C. McAdam, J. F. MacDonald, B. A. Orser, Georgios koutsoukos, Susan Belo, Christopher A. Chin, Brendan O’Hare, Jerrold Lerman, Junko Endo, Arthur E. Schwartz, Oktavijan Minanov, J. Gilbert Stone, David C. Adams, Aqeel A. Sandhu, Mark E. Pearson, William L. Young, Robert E. Michler, Ernest Cutz, Matt M. Kurrek, Marsha M. Cohen, Kevin Fish, Pamela Fish, Patricia Murphy, Donald Fung, Alva Noel, John-Paul Szalai, Ari Robicsek, Joshua Rucker, Joshua Kruger, Mark Slutsky, Leeor Sommer, Jeff Silverman, Jodi Dickstein, Viren Naik, Douglas J. Hemphill, Regina Kurian, Khursheed N. Jeejeebhoy, Osama A. Alahdal, N. H. Badner, W. E. Komar, R. Bhandari, R. Craen, D. Cuillerier, W. B. Dobkowski, M. H. Smith, A. N. Vannelli, R. B. Bourne, C. H. Rorabeck, J. A. Doyle, Antoinette Corvo, Richard M. Wahba, Nathalie Scheffer, John Y. C. Tsang, Brad A. Brush, N. Q. N’Guyen, C. Orain, S. Tougui, G. Lavenac, D. Milon, Ewan D. Ritchie, Doris Tong, Andrew Norris, Anthony Miniaci, Santhira D. Vairavanathan, Timothy FitzPatrick, Mark Stafford-Smith, Ken Kardash, Toula Trihas, Simcha J. Kleiman, Michel Rossignol, Dominique Bérard, Brent Martel, J. P. Tétrault, Peter G. Lunt, Dennis W. Coombs, Stephen Halpern, Elizabeth A. Peter, Patricia Janssen, Jill Mahy, M. Joanne Douglas, Caroline S. Grange, Timothy J. Adams, Louis Wadsworth, Holly Muir, Romesh Shukla, Desmond Writer, Richard McLaren, Robert Liston, Don Paetkau, Bill Y. Ong, Ron Segstro, Judy Littleford, Cristina Hurtado, Ananthan Krishnathas, Marcelo Lannes, Joanne Fortier, Jun Su, Rubini Jeganathan, and Suzanne Vaillancourt

Subjects

Anesthesiology and Pain Medicine, General Medicine

Published

1996

10. Compression After Impact Strength Prediction in Composites Using Acoustic Emission and Artificial Neural Networks

Author

Eric Hill, Tom Ebert, Yi Zhao, Jonathan Kay, and Gregory Lewis

Subjects

Materials science, Compressive strength, Acoustic emission, Artificial neural network, business.industry, Nondestructive testing, Izod impact strength test, Structural engineering, Composite laminates, Composite material, business, Compression (physics), Parametric statistics

Abstract

This paper outlines the procedures and test results for a proposed method of predicting the compressive strength of carbon/epoxy composite laminates previously impacted at random energy levels to create barely visible impact damage (BVID). The method employs a combination of acoustic emission (AE) nondestructive testing (NDT) and artificial neural networks (ANN) along with physical filters imposed on the collected data. The results presented allow for benchmarking of prediction performance and for comparison with other prediction methods. Nomenclature C = counts D = duration av f = average frequency C F = compressive load P = parametric input

Published

2008

11. Increased levels of multiresistant bacteria and resistance genes after wastewater treatment and their dissemination into Lake Geneva, Switzerland

Author

Nadine eCzekalski, Tom eBerthold, Serena eCaucci, Andrea eEgli, and Helmut eBuergmann

Subjects

Sewage, qPCR, sediment, pollution, aquatic, environment, Microbiology, QR1-502

Abstract

At present, very little is known about the fate and perseverance of multiresistant bacteria and their resistance genes in natural aquatic environments. Treated, but partly also untreated sewage of the city of Lausanne, Switzerland is discharged into Vidy bay (Lake Geneva) resulting in high levels of contamination in this part of the lake. In the present work we have studied the prevalence of multiresistant bacteria and resistance genes in the wastewater stream of Lausanne. Samples from hospital and municipal raw sewage, treated effluent from Lausanne’s wastewater treatment plant (WTP) as well as lake water and sediment samples obtained close to the WTP outlet pipe and a remote site close to a drinking water pump were evaluated for the prevalence of multiresistant bacteria. Selected isolates were identified (16S rRNA gene fragment sequencing) and characterized with regards to further resistances, resistance genes, and plasmids. Mostly, studies investigating this issue have relied on cultivation-based approaches. However, the limitations of these tools are well known, in particular for environmental microbial communities, and cultivation-independent molecular tools should be applied in parallel in order to take non-culturable organisms into account. Here we directly quantified the sulfonamide resistance genes sul1 and sul2 from environmental DNA extracts using TaqMan real-time quantitative PCR. Hospital sewage contained the highest load of multiresistant bacteria and antibiotic resistance genes. Wastewater treatment reduced the total bacterial load but evidence for selection of extremely multiresistant strains and accumulation of resistance genes was observed. Our data clearly indicated pollution of sediments with antibiotic resistance genes in the vicinity of the WTP outlet. The potential of lakes as reservoirs of multiresistant bacteria and potential risks are discussed.

Published

2012