Your search keyword '"Norton, Charles D."' showing total 191 results

51. Recycling GPS signals and radiation monitoring: the two payloads onboard PRETTY

Author

Pagano, Thomas S., Norton, Charles D., Babu, Sachidananda R., Fragner, H., Dielacher, A., Moritsch, M., Zangerl, F., Beck, P., Koudelka, O., Høeg, P., Wickert, J., Cardellach, E., Wenger, M., Hörmer, A., Zeif, R., Teschl, F., Martín-Neira, M., Semmling, M., and Walker, R.

Published

2019

52. Electronic alignment for the CubeSat Infrared Atmospheric Sounder

Author

Pagano, Thomas S., Norton, Charles D., Babu, Sachidananda R., and Pagano, Thomas S.

Published

2019

53. HYTI: thermal hyperspectral imaging from a CubeSat platform

Author

Pagano, Thomas S., Norton, Charles D., Babu, Sachidananda R., Wright, Robert, Nunes, Miguel, Lucey, Paul, Flynn, Luke, Gunapala, Sarath, Ting, David, Rafol, Sir, Soibel, Alexander, Ferrari-Wong, Chiara, Gabrieli, Andrea, and Thenabail, Prasad

Published

2019

54. Coordinated Ionospheric Reconstruction CubeSat Experiment (CIRCE) mission overview

Author

Pagano, Thomas S., Norton, Charles D., Babu, Sachidananda R., Nicholas, Andrew C., Attrill, Gemma D. R., Dymond, Kenneth F., Budzien, Scott A., Stephan, Andrew W., Fritz, Bruce A., Routledge, Graham J., Miah, Junayd A., Brown, Charles M., Marquis, Peter J., Finne, Ted T., Mitchell, Cathryn N., Watson, Robert J., Kataria, Dhiren O., and Williams, James

Published

2019

55. CIRiS, a CubeSat-compatible, imaging radiometer for earth science and planetary missions

Author

Pagano, Thomas S., Norton, Charles D., Babu, Sachidananda R., Osterman, D. P., Hayne, P. O., Warden, R., Reavis, G., Kampe, T., and Mitchell, S.

Published

2019

56. Compact total irradiance monitor flight demonstration

Author

Pagano, Thomas S., Norton, Charles D., Babu, Sachidananda R., Harber, David, Castleman, Zach, Drake, Ginger, Van Dreser, Samuel, Farber, Nat, Heuerman, Karl, Miller, Marc, Rutkowski, Joel, Sims, Alan, Sprunck, Jacob, Straatsma, Cameron, Wanamaker, Isaac, Zheng, Wengang, Kopp, Greg, Richard, Erik, Pilewskie, Peter, Tomlin, Nathan, Stephens, Michelle, Yung, Christopher, White, Malcolm, and Lehman, John

Published

2019

57. In-orbit demonstration of artificial intelligence applied to hyperspectral and thermal sensing from space

Author

Pagano, Thomas S., Norton, Charles D., Babu, Sachidananda R., Esposito, M., Conticello, S. S., Pastena, M., and Carnicero Domínguez, B.

Published

2019

58. Advances in the optical design of a spatial heterodyne interferometer deployed on a 6U-CubeSat for atmospheric research

Author

Pagano, Thomas S., Norton, Charles D., Babu, Sachidananda R., Olschewski, Friedhelm, Kaufmann, Martin, Mantel, Klaus, Wroblowski, Oliver, Riese, Martin, and Koppmann, Ralf

Published

2019

59. Assessing nanosatellite capabilities for accurate water-leaving radiance retrievals in coastal ocean waters: a forced aerosol model approach

Author

Pagano, Thomas S., Norton, Charles D., Babu, Sachidananda R., McCarthy, Sean, Lewis, Mark David, Anderson, Stephanie, Martinolich, Paul, Ladner, Sherwin, Lawson, Adam, Jolliff, Jason, and Gould, Richard W.

Published

2019

60. Team Xc: JPL's collaborative design team for exploring CubeSat, NanoSat, and SmallSat-based mission concepts

Author

Zarifian, Pez, primary, Imken, Travis, additional, Matousek, Steve E., additional, Moeller, Robert C., additional, Bennett, Matthew W., additional, Norton, Charles D., additional, Rosenberg, Leigh, additional, Alibay, Farah, additional, Spangelo, Sara, additional, Banazadeh, Payam, additional, Casillas, Raul Polit, additional, and Kawata, Jessie, additional

Published

2015

61. 64. Public Budgeting

Author

Buck, A. E., primary and Norton, Charles D., additional

Published

1930

62. NASA ESTO's strategic investments in space-based radiometer technology and flight validation

Author

Norton, Charles D., additional and Pasciuto, Michael P., additional

Published

2014

63. LetSat-1: a GPU technology demonstrator and AI navigation system

Author

Pagano, Thomas S., Norton, Charles D., White, Clifford N., Griscom, Chandler J., Jhaveri, Prabodh M., Keener, Elizabeth M., and Lichtenberg, Byron K.

Published

2018

64. A small satellite mission for solar coronagraphy

Author

Pagano, Thomas S., Norton, Charles D., Gopalswamy, N., and Gong, Qian

Published

2018

65. Evaluation of UV optics for triple tiny ionospheric photometers on CubeSat missions

Author

Pagano, Thomas S., Norton, Charles D., Stephan, Andrew W., Marquis, Peter J., Budzien, Scott A., Dymond, Kenneth F., Brown, Charles M., Wolfram, Kenneth D., and Nicholas, Andrew C.

Published

2018

66. Analysis of a dual CubeSat communication system for a formation-flying experiment

Author

Pagano, Thomas S., Norton, Charles D., do Nascimento, Antonio C. R., Teodoro, Gabriel, Mika, Jefferson, Costa, Mateus M. B., and Hughes, Gary B.

Published

2018

67. Preliminary studies of the impact on temperature of a high-power laser on-board a 6U CubeSat

Author

Pagano, Thomas S., Norton, Charles D., Morsch Filho, Edemar, Santiago, Rodrigo, Costa, Mateus M. B., Paiva, Kleber V., Possamai, Talita S., Oba, Renato, Nicolau, Vicente P., and Hughes, Gary B.

Published

2018

68. Thermal control analysis on a 6U CubeSat equipped with a high-power laser

Author

Pagano, Thomas S., Norton, Charles D., Franco, Bárbara M., Dornelles, Guilherme L., Riva, Luis F. O., Garcia, Jhônatas H., Guarnieri, Djulia L., Paiva, Kleber V., and Hughes, Gary B.

Published

2018

69. Energy subsystem analysis for a 6U CubeSat mission utilizing high-power laser and FT-IR spectrometer

Author

Pagano, Thomas S., Norton, Charles D., Bittencourt, Ricardo S., Albuquerque, Davi S., Ferreira, Augusto R., Cavalcante, Willians G., Marconcini Roberto, Gabriel F., and Hughes, Gary B.

Published

2018

70. Spectrometer subsystem for a CubeSat mission to test Remote Laser-Evaporative Molecular Absorption (R-LEMA) spectroscopy concept in the space environment

Author

Pagano, Thomas S., Norton, Charles D., Rodrigues, Lillian, Winche, Yuri, and Hughes, Gary B.

Published

2018

71. High-power laser subsystem for a 6U CubeSat mission

Author

Pagano, Thomas S., Norton, Charles D., Jantsch, Gabriel, Lopes, Gabriela C. L., Pienta, Paola N., and Hughes, Gary B.

Published

2018

72. Control system development for an R-LEMA testing CubeSat experiment

Author

Pagano, Thomas S., Norton, Charles D., Casaril, Lucas, Lugnani de Souza, Bruno, Felipe Pscheidt, Luiz, de Souza Wolniewicz, Mairon, Garro Brito, Alexandro, and Hughes, Gary B.

Published

2018

73. Remote Laser Evaporative Molecular Absorption (R-LEMA) spectroscopy laboratory experiments

Author

Pagano, Thomas S., Norton, Charles D., Madajian, Jonathan, Hughes, Gary B., Miller, Benton, Wang, Yu, Brouwer, Dane, Cohen, Alexander, Su, Jessie, Strickland, William, Srinivasan, Prashant, Brashears, Travis, Rupert, Nicholas, and Lubin, Philip

Published

2018

74. Experimental design for remote laser evaporative molecular absorption spectroscopy sensor system concept

Author

Pagano, Thomas S., Norton, Charles D., Sucich, Amber, Snyder, Tomas, Bittencourt, Ricardo S., Cirilo, Edinan H., Madajian, Jonathan, Wang, Yu, Miller, Benton, Srinivasan, Prashant, Lubin, Philip, and Hughes, Gary B.

Published

2018

75. A CubeSat mission for space-environment demonstration of Remote Laser-Evaporative Molecular Absorption (R-LEMA) spectroscopy sensor system concept

Author

Pagano, Thomas S., Norton, Charles D., Moura, Pedro Santos, Serpa, Bruno, Assis, Bruno, Moura, Yan, Alves, Vinicius P., Schenguer, Katryn A., Tumelero, Breno L., Luz, Ana, Novaes, Luiz G. C., Cabral, Amanda T., Rotter, Daniel V., Rossini, Nícolas, Santos, Pedro M. R., Bretzke, Thomas K., de Souza, Melissa, Morais, Karina, Champoski, Daniel, Vieira, Dayane, Spricigo, Gabriel, De Carli, Eduardo, Taglialenha, Silvia L. S., and Hughes, Gary B.

Published

2018

76. Inter-satellite omnidirectional optical communicator for remote sensing

Author

Pagano, Thomas S., Norton, Charles D., Velazco, Jose E., Griffin, Joseph, Wernicke, Danny, Huleis, John, DeNucci, Andrew, Boyraz, Ozdal, and Zaman, Imam Uz

Published

2018

77. A constellation of MicroSats to search for NEOs

Author

Pagano, Thomas S., Norton, Charles D., Shao, Michael, Zhou, Hanying, Turyshev, Slava G., Zhai, Chengxing, Saini, Navtej, and Trahan, Russell

Published

2018

78. Overview of Primitive Object Volatile Explorer (PrOVE) CubeSat or Smallsat concept

Author

Pagano, Thomas S., Norton, Charles D., Clark, Pamela, Hewagama, Tilak, Aslam, Shahid, Bauer, James, Daly, Michael, Feaga, Lori, Folta, Dave, Gorius, Nicolas, Hughes, Kyle, Hurford, Terry, Jennings, Donald, Livengood, Timothy, Mumma, Michael, Nixon, Conor, Sunshine, Jessica, Villanueva, Geronimo, Brown, Kevin, Malphrus, Ben, and Zucherman, Aaron

Published

2018

79. Overview of Phobos/Deimos Regolith Ion Sample Mission (PRISM) concept

Author

Pagano, Thomas S., Norton, Charles D., Clark, Pamela, Collier, Michael, Schaible, Micah, Farrell, William M., Folta, David, Hughes, Kyle M., Keller, John W., Malphrus, Ben, Rivkin, Andrew S., Murchie, Scott, Hurley, Dana, Halekas, Jasper, Vondrak, Richard, Stubbs, Timothy, Killen, Rosemary, Sarantos, Menelaos, Jones, Sarah L., Espley, Jared, and Dibraccio, Gina

Published

2018

80. The Lunar Flashlight CubeSat instrument: a compact SWIR laser reflectometer to quantify and map water ice on the surface of the moon

Author

Pagano, Thomas S., Norton, Charles D., Wehmeier, Udo, Vinckier, Quentin, Sellar, R. Glenn, Paine, Christopher G., Hayne, Paul O., Bagheri, Mahmood, Rais-Zadeh, Mina, Forouhar, Siamak, Loveland, Jessica, and Shelton, Jacob

Published

2018

81. Nature of and lessons learned from Lunar Ice Cube and the first deep space cubesat 'cluster'

Author

Pagano, Thomas S., Norton, Charles D., Clark, Pamela, MacDowall, Robert, Farrell, William, Brambora, Cliff, Lunsford, Al, Hurford, Terry, Folta, David, Malphrus, Benjamin, Grubb, Matt, Wilzcewski, Sarah, and Bujold, Emily

Published

2018

82. Constellations of CubeSats to exploit signals-of-opportunity for Earth system science

Author

Pagano, Thomas S., Norton, Charles D., Shah, Rashmi, Freeman, Tony, and Garrison, James L.

Published

2018

83. Hawkeye ocean color instrument: performance summary

Author

Pagano, Thomas S., Norton, Charles D., Holmes, Alan, Morrison, John M., Feldman, Gene, Patt, Fred, and Lee, Shihyan

Published

2018

84. Snow and Water Imaging Spectrometer (SWIS): CubeSat configuration and design

Author

Pagano, Thomas S., Norton, Charles D., Bender, Holly A., Mouroulis, Pantazis, Bellardo, John M., Gillespie, Cole T., Heaton, Grigory J., Fernandez, Michael A., Sizemore, Nicholas N., Andrade, Andres, Liggett, Elliott H., Sullivan, Peter, Keymeulen, Didier, Smith, Christopher D., and Gibson, Megan

Published

2018

85. Data system design for a hyperspectral imaging mission concept

Author

Massachusetts Institute of Technology. Department of Aeronautics and Astronautics, Graham, Lindley C., Hartzell, Christine M., Tao, Tony S., Goldberg, Hannah R., Carpena-Nunez, Jennifer, Racek, David M., Taylor, Christianna E., Norton, Charles D., Massachusetts Institute of Technology. Department of Aeronautics and Astronautics, Graham, Lindley C., Hartzell, Christine M., Tao, Tony S., Goldberg, Hannah R., Carpena-Nunez, Jennifer, Racek, David M., Taylor, Christianna E., and Norton, Charles D.

Abstract

Global ecosystem observations are important for Earth-system studies. The National Research Council's report entitled Earth Science and Applications from Space is currently guiding NASA's Earth science missions. It calls for a global land and coastal area mapping mission. The mission, scheduled to launch in the 2013-2016 timeframe, includes a hyperspectral imager and a multi-spectral thermal-infrared sensor. These instruments will enable scientists to characterize global species composition and monitor the response of ecosystems to disturbance events such as drought, flooding, and volcanic events. Due to the nature and resolution of the sensors, these two instruments produce approximately 645 GB of raw data each day, thus pushing the limits of conventional data handling and telecommunications capabilities. The implications of and solutions to the challenge of high downlink data volume were examined. Low risk and high science return were key design values. The advantages of onboard processing and advanced telecommunications methods were evaluated. This paper will present an end-to-end data handling system design that will handle the large data downlink volumes that are becoming increasingly prevalent as the complexity of Earth science increases. The designs presented here are the work of the authors and may differ from the current mission baseline., United States. National Aeronautics and Space Administration

Published

2010

86. The Transition and Adoption to Modern Programming Concepts for Scientific Computing in Fortran

Author

Norton, Charles D., Decyk, Viktor K, Szymanski, Boleslaw K., Gardner, Henry James, Norton, Charles D., Decyk, Viktor K, Szymanski, Boleslaw K., and Gardner, Henry James

Abstract

This paper describes our experiences in the early exploration of modern concepts introduced in Fortran90 for large-scale scientific programming. We review our early work in expressing object-oriented concepts based on the new Fortran90 constructs - foreign to most programmers at the time - our experimental work in applying them to various applications, the impact on the WG5/J3 standards committees to consider formalizing object-oriented constructs for later versions of Fortran, and work in exploring how other modern programming techniques such as Design Patterns can and have impacted our software development. Applications will be drawn from plasma particle simulation and finite element adaptive mesh refinement for solid earth crustal deformation modeling.

Published

2007

87. Why Fortran?

Author

Decyk, Viktor K, Norton, Charles D., Gardner, Henry James, Decyk, Viktor K, Norton, Charles D., and Gardner, Henry James

Abstract

AMONG MANY COMPUTER SCIENTISTS, FORTRAN IS AN F-WORD. YET, IT'S STILL THE MOST WIDELY USED LANGUAGE IN SCIENTIFIC COMPUTING, ESPECIALLY WHEN HIGH PERFORMANCE IS REQUIRED. WHY IS THIS SO?

Published

2007

88. Spaceborne flight validation of NASA ESTO technologies

Author

Norton, Charles D., primary, Pasciuto, Michael P., additional, Pingree, Paula, additional, Chien, Steve, additional, and Rider, David, additional

Published

2012

89. Sensor web technology challenges and advancements for the earth science decadal survey era

Author

Norton, Charles D., primary and Moe, Karen, additional

Published

2011

90. Data system design for a hyperspectral imaging mission concept

Author

Hartzell, Christine M., primary, Graham, Lindley C., additional, Tao, Tony S., additional, Goldberg, Hannah R., additional, Carpena-Nunez, Jennifer, additional, Racek, David M., additional, Taylor, Christianna E., additional, and Norton, Charles D., additional

Published

2009

91. An evaluation of the Xilinx Virtex-4 FPGA for on-board processing in an advanced imaging system

Author

Norton, Charles D., primary, Werne, Thomas A., additional, Pingree, Paula J., additional, and Geier, Sven, additional

Published

2009

92. Extending OSSE beyond numerical weather prediction to new areas in Earth observing science

Author

Norton, Charles D., primary, Eldering, Annmarie, additional, Turmon, Michael, additional, and Parker, Jay, additional

Published

2009

93. Model-Based Verification and Validation of Component Structures for RF and Optical Experimental Systems

Author

Norton, Charles D., primary, Fang, Houfei, additional, Michel, Thierry, additional, Moussessian, Alina, additional, Schiermeier, John, additional, Springer, Paul, additional, and Otero, Richard, additional

Published

2008

94. Why Fortran?

Author

Decyk, Viktor K., primary, Norton, Charles D., additional, and Gardner, Henry J., additional

Published

2007

95. High Performance Computing for Mission-Enabling Space Applications

Author

Norton, Charles D., primary

Published

2007

96. The Transition and Adoption to Modern Programming Concepts for Scientific Computing in Fortran

Author

Norton, Charles D., primary, Decyk, Viktor K., additional, Szymanski, Boleslaw K., additional, and Gardner, Henry, additional

Published

2007

97. A Simplified Method for Implementing Run-Time Polymorphism in Fortran95

Author

Decyk, Viktor K., primary and Norton, Charles D., additional

Published

2004

98. THE COMMON COMPONENT ARCHITECTURE (CCA) APPLIED TO SEQUENTIAL AND PARALLEL COMPUTATIONAL ELECTROMAGNETIC APPLICATIONS

Author

KATZ, DANIEL S., primary, TISDALE, E. ROBERT, additional, and NORTON, CHARLES D., additional

Published

2002

99. Parallel Unstructured AMR and Gigabit Networking for Beowulf-Class Clusters.

Author

Norton, Charles D. and Ćwik, Thomas A.

Abstract

The impact of Gigabit networking with Myrinet 2000 hardware and MPICH-GM software on a 2-way SMP Beowulf-Class cluster for parallel unstructured adaptive mesh refinement using the PYRAMID library is described. Network performance measurements show that approximately 225 Mbytes/s (1.8 Gbits/s) with 9.3μ seconds latency can be achieved for large messages in ping-pong tests. The performance varies depending on how processors communicate; either within an SMP node or across nodes. When applied to parallel unstructured AMR of 3D tetra-hedral meshes noticeable improvement is observed when compared to 100BaseT (100 Mbits/s) Ethernet. Furthermore, when compared to traditional systems, such as the SGI Origin 2000, one realizes that Beowulf-Clusters with fast networks and high performance SMP processors compare favorably with such systems–even for communication intensive applications. [ABSTRACT FROM AUTHOR]

Published

2006

100. 'Gotcha' correction

Author

Decyk, Viktor K., primary and Norton, Charles D., additional

Published

2000