Search

Your search keyword '"David Franz"' showing total 43 results
Start Over Author "David Franz" Language undetermined
43 results on '"David Franz"'

1. Combined layout and cable optimization of offshore wind farms

Author

Davide Cazzaro, David Franz Koza, and David Pisinger

Subjects
Information Systems and Management, General Computer Science, Modeling and Simulation, Management Science and Operations Research, Industrial and Manufacturing Engineering
Published
2023

2. Manual de procedimientos administrativos de las instituciones educativas del Ecuador

Author

Zila Isabel Esteves-Fajardo, David Franz Strasser-Lopez, Cecilia Isabel Elizalde-Cordero, Rosy Virginia Cañizares-Hermoza, and Miriam Maritza Calle-Cobos

Abstract

El manual de procedimientos administrativos de las instituciones educativas del Ecuador, se enfoca en conducir a los miembros de todas las instituciones a reflexionar sobre sus distintas experiencias, a fin de fomentar un proceso de administración y planificación escolar cónsono con sus realidades. Se profundizará de forma reflexiva acerca de los aspectos que forman parte del hecho educativo y que dan lugar a la dinamización de la enseñanza y el aprendizaje; es decir, de los objetivos, los contenidos, los procesos metodológicos, los medios y recursos materiales y las estrategias de evaluación. Luego de analizados, se procederán a realizar actividades prácticas que permitirán al lector contextualizar lo teórico en la praxis. Se tratarán las orientaciones básicas para la planificación didáctica y la buena administración escolar, a objeto de sentar las bases de un proceso educativo eficiente en los diferentes niveles educativos y modalidades del sistema, culminando con el nivel parvulario, tema medular de este texto.

Published
2023

3. The Science Performance of JWST as Characterized in Commissioning

Author

Jane Rigby, Marshall Perrin, Michael McElwain, Randy Kimble, Scott Friedman, Matt Lallo, René Doyon, Lee Feinberg, Pierre Ferruit, Alistair Glasse, Marcia Rieke, George Rieke, Gillian Wright, Chris Willott, Knicole Colon, Stefanie Milam, Susan Neff, Christopher Stark, Jeff Valenti, Jim Abell, Faith Abney, Yasin Abul-Huda, D. Scott Acton, Evan Adams, David Adler, Jonathan Aguilar, Nasif Ahmed, Loïc Albert, Stacey Alberts, David Aldridge, Marsha Allen, Martin Altenburg, Javier Álvarez-Márquez, Catarina Alves de Oliveira, Greg Andersen, Harry Anderson, Sara Anderson, Ioannis Argyriou, Amber Armstrong, Santiago Arribas, Etienne Artigau, Amanda Arvai, Charles Atkinson, Gregory Bacon, Thomas Bair, Kimberly Banks, Jaclyn Barrientes, Bruce Barringer, Peter Bartosik, William Bast, Pierre Baudoz, Thomas Beatty, Katie Bechtold, Tracy Beck, Eddie Bergeron, Matthew Bergkoetter, Rachana Bhatawdekar, Stephan Birkmann, Ronald Blazek, Claire Blome, Anthony Boccaletti, Torsten Böker, John Boia, Nina Bonaventura, Nicholas Bond, Kari Bosley, Ray Boucarut, Matthew Bourque, Jeroen Bouwman, Gary Bower, Charles Bowers, Martha Boyer, Larry Bradley, Greg Brady, Hannah Braun, David Breda, Pamela Bresnahan, Stacey Bright, Christopher Britt, Asa Bromenschenkel, Brian Brooks, Keira Brooks, Bob Brown, Matthew Brown, Patricia Brown, Andy Bunker, Matthew Burger, Howard Bushouse, Steven Cale, Alex Cameron, Peter Cameron, Alicia Canipe, James Caplinger, Francis Caputo, Mihai Cara, Larkin Carey, Stefano Carniani, Maria Carrasquilla, Margaret Carruthers, Michael Case, Riggs Catherine, Don Chance, George Chapman, Stéphane Charlot, Brian Charlow, Pierre Chayer, Bin Chen, Brian Cherinka, Sarah Chichester, Zack Chilton, Taylor Chonis, Mark Clampin, Charles Clark, Kerry Clark, Dan Coe, Benee Coleman, Brian Comber, Tom Comeau, Dennis Connolly, James Cooper, Rachel Cooper, Eric Coppock, Matteo Correnti, Christophe Cossou, Alain Coulais, Laura Coyle, Misty Cracraft, Mirko Curti, Steven Cuturic, Katherine Davis, Michael Davis, Bruce Dean, Amy DeLisa, Wim deMeester, Nadia Dencheva, Nadezhda Dencheva, Joseph DePasquale, Jeremy Deschenes, Örs Hunor Detre, Rosa Diaz, Dan Dicken, Audrey DiFelice, Matthew Dillman, William Dixon, Jesse Doggett, Tom Donaldson, Rob Douglas, Kimberly DuPrie, Jean Dupuis, John Durning, Nilufar Easmin, Weston Eck, Chinwe Edeani, Eiichi Egami, Ralf Ehrenwinkler, Jonathan Eisenhamer, Michael Eisenhower, Michelle Elie, James Elliott, Kyle Elliott, Tracy Ellis, Michael Engesser, Nestor Espinoza, Odessa Etienne, Mireya Etxaluze, Patrick Falini, Matthew Feeney, Malcolm Ferry, Joseph Filippazzo, Brian Fincham, Mees Fix, Nicolas Flagey, Michael Florian, Jim Flynn, Erin Fontanella, Terrance Ford, Peter Forshay, Ori Fox, David Franz, Henry Fu, Alexander Fullerton, Sergey Galkin, Anthony Galyer, Macarena García Marín, Jonathan P. Gardner, Lisa Gardner, Dennis Garland, Bruce Garrett, Danny Gasman, Andras Gaspar, Daniel Gaudreau, Peter Gauthier, Vincent Geers, Paul Geithner, Mario Gennaro, Giovanna Giardino, Julien Girard, Mark Giuliano, Kirk Glassmire, Adrian Glauser, Stuart Glazer, John Godfrey, David Golimowski, David Gollnitz, Fan Gong, Shireen Gonzaga, Michael Gordon, Karl Gordon, Paul Goudfrooij, Thomas Greene, Matthew Greenhouse, Stefano Grimaldi, Andrew Groebner, Timothy Grundy, Pierre Guillard, Irvin Gutman, Kong Q. Ha, Peter Haderlein, Andria Hagedorn, Kevin Hainline, Craig Haley, Maryam Hami, Forrest Hamilton, Heidi Hammel, Carl Hansen, Tom Harkins, Michael Harr, Jessica Hart, Quyen Hart, George Hartig, Ryan Hashimoto, Sujee Haskins, William Hathaway, Keith Havey, Brian Hayden, Karen Hecht, Chris Heller-Boyer, Caroline Henriques, Alaina Henry, Karl Hermann, Scarlin Hernandez, Brigette Hesman, Brian Hicks, Bryan Hilbert, Dean Hines, Melissa Hoffman, Sherie Holfeltz, Bryan J. Holler, Jennifer Hoppa, Kyle Hott, Joseph M. Howard, Rick Howard, Alexander Hunter, David Hunter, Brendan Hurst, Bernd Husemann, Leah Hustak, Luminita Ilinca Ignat, Garth Illingworth, Sandra Irish, Wallace Jackson, Amir Jahromi, Peter Jakobsen, LeAndrea James, Bryan James, William Januszewski, Ann Jenkins, Hussein Jirdeh, Phillip Johnson, Timothy Johnson, Vicki Jones, Ron Jones, Danny Jones, Olivia Jones, Ian Jordan, Margaret Jordan, Sarah Jurczyk, Alden Jurling, Catherine Kaleida, Phillip Kalmanson, Jens Kammerer, Huijo Kang, Shaw-Hong Kao, Diane Karakla, Patrick Kavanagh, Doug Kelly, Sarah Kendrew, Herbert Kennedy, Deborah Kenny, Ritva Keski-kuha, Charles Keyes, Richard Kidwell, Wayne Kinzel, Jeff Kirk, Mark Kirkpatrick, Danielle Kirshenblat, Pamela Klaassen, Bryan Knapp, J. Scott Knight, Perry Knollenberg, Robert Koehler, Anton Koekemoer, Aiden Kovacs, Trey Kulp, Nimisha Kumari, Mark Kyprianou, Stephanie La Massa, Aurora Labador, Alvaro Labiano, Pierre-Olivier Lagage, Charles-Philippe Lajoie, Matthew Lallo, May Lam, Tracy Lamb, Scott Lambros, Richard Lampenfield, James Langston, Kirsten Larson, David Law, Jon Lawrence, David Lee, Jarron Leisenring, Kelly Lepo, Michael Leveille, Nancy Levenson, Marie Levine, Zena Levy, Dan Lewis, Hannah Lewis, Mattia Libralato, Paul Lightsey, Miranda Link, Lily Liu, Amy Lo, Alexandra Lockwood, Ryan Logue, Chris Long, Douglas Long, Charles Loomis, Marcos Lopez-Caniego, Jose Lorenzo Alvarez, Jennifer Love-Pruitt, Adrian Lucy, Nora Luetzgendorf, Peiman Maghami, Roberto Maiolino, Melissa Major, Sunita Malla, Eliot Malumuth, Elena Manjavacas, Crystal Mannfolk, Amanda Marrione, Anthony Marston, André Martel, Marc Maschmann, Gregory Masci, Michaela Masciarelli, Michael Maszkiewicz, John Mather, Kenny McKenzie, Brian McLean, Matthew McMaster, Katie Melbourne, Marcio Meléndez, Michael Menzel, Kaiya Merz, Michele Meyett, Luis Meza, Cherie Miskey, Karl Misselt, Christopher Moller, Jane Morrison, Ernie Morse, Harvey Moseley, Gary Mosier, Matt Mountain, Julio Mueckay, Michael Mueller, Susan Mullally, Jess Murphy, Katherine Murray, Claire Murray, David Mustelier, James Muzerolle, Matthew Mycroft, Richard Myers, Kaila Myrick, Shashvat Nanavati, Elizabeth Nance, Omnarayani Nayak, Bret Naylor, Edmund Nelan, Bryony Nickson, Alethea Nielson, Maria Nieto-Santisteban, Nikolay Nikolov, Alberto Noriega-Crespo, Brian O’Shaughnessy, Brian O’Sullivan, William Ochs, Patrick Ogle, Brenda Oleszczuk, Joseph Olmsted, Shannon Osborne, Richard Ottens, Beverly Owens, Camilla Pacifici, Alyssa Pagan, James Page, Sang Park, Keith Parrish, Polychronis Patapis, Lee Paul, Tyler Pauly, Cheryl Pavlovsky, Andrew Pedder, Matthew Peek, Maria Pena-Guerrero, Konstantin Penanen, Yesenia Perez, Michele Perna, Beth Perriello, Kevin Phillips, Martin Pietraszkiewicz, Jean-Paul Pinaud, Norbert Pirzkal, Joseph Pitman, Aidan Piwowar, Vera Platais, Danielle Player, Rachel Plesha, Joe Pollizi, Ethan Polster, Klaus Pontoppidan, Blair Porterfield, Charles Proffitt, Laurent Pueyo, Christine Pulliam, Brian Quirt, Irma Quispe Neira, Rafael Ramos Alarcon, Leah Ramsay, Greg Rapp, Robert Rapp, Bernard Rauscher, Swara Ravindranath, Timothy Rawle, Michael Regan, Timothy A. Reichard, Carl Reis, Michael E. Ressler, Armin Rest, Paul Reynolds, Timothy Rhue, Karen Richon, Emily Rickman, Michael Ridgaway, Christine Ritchie, Hans-Walter Rix, Massimo Robberto, Gregory Robinson, Michael Robinson, Orion Robinson, Frank Rock, David Rodriguez, Bruno Rodriguez Del Pino, Thomas Roellig, Scott Rohrbach, Anthony Roman, Fred Romelfanger, Perry Rose, Anthony Roteliuk, Marc Roth, Braden Rothwell, Neil Rowlands, Arpita Roy, Pierre Royer, Patricia Royle, Chunlei Rui, Peter Rumler, Joel Runnels, Melissa Russ, Zafar Rustamkulov, Grant Ryden, Holly Ryer, Modhumita Sabata, Derek Sabatke, Elena Sabbi, Bridget Samuelson, Benjamin Sapp, Bradley Sappington, B. Sargent, Arne Sauer, Silvia Scheithauer, Everett Schlawin, Joseph Schlitz, Tyler Schmitz, Analyn Schneider, Jürgen Schreiber, Vonessa Schulze, Ryan Schwab, John Scott, Kenneth Sembach, Clare Shanahan, Bryan Shaughnessy, Richard Shaw, Nanci Shawger, Christopher Shay, Evan Sheehan, Sharon Shen, Allan Sherman, Bernard Shiao, Hsin-Yi Shih, Irene Shivaei, Matthew Sienkiewicz, David Sing, Marco Sirianni, Anand Sivaramakrishnan, Joy Skipper, G. C. Sloan, Christine Slocum, Steven Slowinski, Erin Smith, Eric Smith, Denise Smith, Corbett Smith, Gregory Snyder, Warren Soh, Sangmo Tony Sohn, Christian Soto, Richard Spencer, Scott Stallcup, John Stansberry, Carl Starr, Elysia Starr, Alphonso Stewart, Massimo Stiavelli, Amber Straughn, David Strickland, Jeff Stys, Francis Summers, Fengwu Sun, Ben Sunnquist, Daryl Swade, Michael Swam, Robert Swaters, Robby Swoish, Joanna M. Taylor, Rolanda Taylor, Maurice Te Plate, Mason Tea, Kelly Teague, Randal Telfer, Tea Temim, Deepashri Thatte, Christopher Thompson, Linda Thompson, Shaun Thomson, Tuomo Tikkanen, William Tippet, Connor Todd, Sharon Toolan, Hien Tran, Edwin Trejo, Justin Truong, Chris Tsukamoto, Samuel Tustain, Harrison Tyra, Leonardo Ubeda, Kelli Underwood, Michael Uzzo, Julie Van Campen, Thomas Vandal, Bart Vandenbussche, Begoña Vila, Kevin Volk, Glenn Wahlgren, Mark Waldman, Chanda Walker, Michel Wander, Christine Warfield, Gerald Warner, Matthew Wasiak, Mitchell Watkins, Andrew Weaver, Mark Weilert, Nick Weiser, Ben Weiss, Sarah Weissman, Alan Welty, Garrett West, Lauren Wheate, Elizabeth Wheatley, Thomas Wheeler, Rick White, Kevin Whiteaker, Paul Whitehouse, Jennifer Whiteleather, William Whitman, Christina Williams, Christopher Willmer, Scott Willoughby, Andrew Wilson, Gregory Wirth, Emily Wislowski, Erin Wolf, David Wolfe, Schuyler Wolff, Bill Workman, Ray Wright, Carl Wu, Rai Wu, Kristen Wymer, Kayla Yates, Christopher Yeager, Jared Yeates, Ethan Yerger, Jinmi Yoon, Alice Young, Susan Yu, Dean Zak, Peter Zeidler, Julia Zhou, Thomas Zielinski, Cristian Zincke, Stephanie Zonak, Rigby, J., Perrin, M., Mcelwain, M., Kimble, R., Friedman, S., Lallo, M., Doyon, R., Feinberg, L., Ferruit, P., Glasse, A., Rieke, M., Rieke, G., Wright, G., Willott, C., Colon, K., Milam, S., Neff, S., Stark, C., Valenti, J., Abell, J., Abney, F., Abul-Huda, Y., Scott Acton, D., Adams, E., Adler, D., Aguilar, J., Ahmed, N., Albert, L., Alberts, S., Aldridge, D., Allen, M., Altenburg, M., Alvarez-Marquez, J., Alves de Oliveira, C., Andersen, G., Anderson, H., Anderson, S., Argyriou, I., Armstrong, A., Arribas, S., Artigau, E., Arvai, A., Atkinson, C., Bacon, G., Bair, T., Banks, K., Barrientes, J., Barringer, B., Bartosik, P., Bast, W., Baudoz, P., Beatty, T., Bechtold, K., Beck, T., Bergeron, E., Bergkoetter, M., Bhatawdekar, R., Birkmann, S., Blazek, R., Blome, C., Boccaletti, A., Boker, T., Boia, J., Bonaventura, N., Bond, N., Bosley, K., Boucarut, R., Bourque, M., Bouwman, J., Bower, G., Bowers, C., Boyer, M., Bradley, L., Brady, G., Braun, H., Breda, D., Bresnahan, P., Bright, S., Britt, C., Bromenschenkel, A., Brooks, B., Brooks, K., Brown, B., Brown, M., Brown, P., Bunker, A., Burger, M., Bushouse, H., Cale, S., Cameron, A., Cameron, P., Canipe, A., Caplinger, J., Caputo, F., Cara, M., Carey, L., Carniani, S., Carrasquilla, M., Carruthers, M., Case, M., Catherine, R., Chance, D., Chapman, G., Charlot, S., Charlow, B., Chayer, P., Chen, B., Cherinka, B., Chichester, S., Chilton, Z., Chonis, T., Clampin, M., Clark, C., Clark, K., Coe, D., Coleman, B., Comber, B., Comeau, T., Connolly, D., Cooper, J., Cooper, R., Coppock, E., Correnti, M., Cossou, C., Coulais, A., Coyle, L., Cracraft, M., Curti, M., Cuturic, S., Davis, K., Davis, M., Dean, B., Delisa, A., Demeester, W., Dencheva, N., Depasquale, J., Deschenes, J., Hunor Detre, I., Diaz, R., Dicken, D., Difelice, A., Dillman, M., Dixon, W., Doggett, J., Donaldson, T., Douglas, R., Duprie, K., Dupuis, J., Durning, J., Easmin, N., Eck, W., Edeani, C., Egami, E., Ehrenwinkler, R., Eisenhamer, J., Eisenhower, M., Elie, M., Elliott, J., Elliott, K., Ellis, T., Engesser, M., Espinoza, N., Etienne, O., Etxaluze, M., Falini, P., Feeney, M., Ferry, M., Filippazzo, J., Fincham, B., Fix, M., Flagey, N., Florian, M., Flynn, J., Fontanella, E., Ford, T., Forshay, P., Fox, O., Franz, D., Fu, H., Fullerton, A., Galkin, S., Galyer, A., Garcia Marin, M., Gardner, J. P., Gardner, L., Garland, D., Garrett, B., Gasman, D., Gaspar, A., Gaudreau, D., Gauthier, P., Geers, V., Geithner, P., Gennaro, M., Giardino, G., Girard, J., Giuliano, M., Glassmire, K., Glauser, A., Glazer, S., Godfrey, J., Golimowski, D., Gollnitz, D., Gong, F., Gonzaga, S., Gordon, M., Gordon, K., Goudfrooij, P., Greene, T., Greenhouse, M., Grimaldi, S., Groebner, A., Grundy, T., Guillard, P., Gutman, I., Ha, K. Q., Haderlein, P., Hagedorn, A., Hainline, K., Haley, C., Hami, M., Hamilton, F., Hammel, H., Hansen, C., Harkins, T., Harr, M., Hart, J., Hart, Q., Hartig, G., Hashimoto, R., Haskins, S., Hathaway, W., Havey, K., Hayden, B., Hecht, K., Heller-Boyer, C., Henriques, C., Henry, A., Hermann, K., Hernandez, S., Hesman, B., Hicks, B., Hilbert, B., Hines, D., Hoffman, M., Holfeltz, S., Holler, B. J., Hoppa, J., Hott, K., Howard, J. M., Howard, R., Hunter, A., Hunter, D., Hurst, B., Husemann, B., Hustak, L., Ilinca Ignat, L., Illingworth, G., Irish, S., Jackson, W., Jahromi, A., Jakobsen, P., James, L., James, B., Januszewski, W., Jenkins, A., Jirdeh, H., Johnson, P., Johnson, T., Jones, V., Jones, R., Jones, D., Jones, O., Jordan, I., Jordan, M., Jurczyk, S., Jurling, A., Kaleida, C., Kalmanson, P., Kammerer, J., Kang, H., Kao, S. -H., Karakla, D., Kavanagh, P., Kelly, D., Kendrew, S., Kennedy, H., Kenny, D., Keski-Kuha, R., Keyes, C., Kidwell, R., Kinzel, W., Kirk, J., Kirkpatrick, M., Kirshenblat, D., Klaassen, P., Knapp, B., Scott Knight, J., Knollenberg, P., Koehler, R., Koekemoer, A., Kovacs, A., Kulp, T., Kumari, N., Kyprianou, M., La Massa, S., Labador, A., Labiano, A., Lagage, P. -O., Lajoie, C. -P., Lam, M., Lamb, T., Lambros, S., Lampenfield, R., Langston, J., Larson, K., Law, D., Lawrence, J., Lee, D., Leisenring, J., Lepo, K., Leveille, M., Levenson, N., Levine, M., Levy, Z., Lewis, D., Lewis, H., Libralato, M., Lightsey, P., Link, M., Liu, L., Lo, A., Lockwood, A., Logue, R., Long, C., Long, D., Loomis, C., Lopez-Caniego, M., Lorenzo Alvarez, J., Love-Pruitt, J., Lucy, A., Luetzgendorf, N., Maghami, P., Maiolino, R., Major, M., Malla, S., Malumuth, E., Manjavacas, E., Mannfolk, C., Marrione, A., Marston, A., Martel, A., Maschmann, M., Masci, G., Masciarelli, M., Maszkiewicz, M., Mather, J., Mckenzie, K., Mclean, B., Mcmaster, M., Melbourne, K., Melendez, M., Menzel, M., Merz, K., Meyett, M., Meza, L., Miskey, C., Misselt, K., Moller, C., Morrison, J., Morse, E., Moseley, H., Mosier, G., Mountain, M., Mueckay, J., Mueller, M., Mullally, S., Murphy, J., Murray, K., Murray, C., Mustelier, D., Muzerolle, J., Mycroft, M., Myers, R., Myrick, K., Nanavati, S., Nance, E., Nayak, O., Naylor, B., Nelan, E., Nickson, B., Nielson, A., Nieto-Santisteban, M., Nikolov, N., Noriega-Crespo, A., O'Shaughnessy, B., O'Sullivan, B., Ochs, W., Ogle, P., Oleszczuk, B., Olmsted, J., Osborne, S., Ottens, R., Owens, B., Pacifici, C., Pagan, A., Page, J., Park, S., Parrish, K., Patapis, P., Paul, L., Pauly, T., Pavlovsky, C., Pedder, A., Peek, M., Pena-Guerrero, M., Penanen, K., Perez, Y., Perna, M., Perriello, B., Phillips, K., Pietraszkiewicz, M., Pinaud, J. -P., Pirzkal, N., Pitman, J., Piwowar, A., Platais, V., Player, D., Plesha, R., Pollizi, J., Polster, E., Pontoppidan, K., Porterfield, B., Proffitt, C., Pueyo, L., Pulliam, C., Quirt, B., Quispe Neira, I., Ramos Alarcon, R., Ramsay, L., Rapp, G., Rapp, R., Rauscher, B., Ravindranath, S., Rawle, T., Regan, M., Reichard, T. A., Reis, C., Ressler, M. E., Rest, A., Reynolds, P., Rhue, T., Richon, K., Rickman, E., Ridgaway, M., Ritchie, C., Rix, H. -W., Robberto, M., Robinson, G., Robinson, M., Robinson, O., Rock, F., Rodriguez, D., Rodriguez Del Pino, B., Roellig, T., Rohrbach, S., Roman, A., Romelfanger, F., Rose, P., Roteliuk, A., Roth, M., Rothwell, B., Rowlands, N., Roy, A., Royer, P., Royle, P., Rui, C., Rumler, P., Runnels, J., Russ, M., Rustamkulov, Z., Ryden, G., Ryer, H., Sabata, M., Sabatke, D., Sabbi, E., Samuelson, B., Sapp, B., Sappington, B., Sargent, B., Sauer, A., Scheithauer, S., Schlawin, E., Schlitz, J., Schmitz, T., Schneider, A., Schreiber, J., Schulze, V., Schwab, R., Scott, J., Sembach, K., Shanahan, C., Shaughnessy, B., Shaw, R., Shawger, N., Shay, C., Sheehan, E., Shen, S., Sherman, A., Shiao, B., Shih, H. -Y., Shivaei, I., Sienkiewicz, M., Sing, D., Sirianni, M., Sivaramakrishnan, A., Skipper, J., Sloan, G. C., Slocum, C., Slowinski, S., Smith, E., Smith, D., Smith, C., Snyder, G., Soh, W., Tony Sohn, S., Soto, C., Spencer, R., Stallcup, S., Stansberry, J., Starr, C., Starr, E., Stewart, A., Stiavelli, M., Straughn, A., Strickland, D., Stys, J., Summers, F., Sun, F., Sunnquist, B., Swade, D., Swam, M., Swaters, R., Swoish, R., Taylor, J. M., Taylor, R., Te Plate, M., Tea, M., Teague, K., Telfer, R., Temim, T., Thatte, D., Thompson, C., Thompson, L., Thomson, S., Tikkanen, T., Tippet, W., Todd, C., Toolan, S., Tran, H., Trejo, E., Truong, J., Tsukamoto, C., Tustain, S., Tyra, H., Ubeda, L., Underwood, K., Uzzo, M., Van Campen, J., Vandal, T., Vandenbussche, B., Vila, B., Volk, K., Wahlgren, G., Waldman, M., Walker, C., Wander, M., Warfield, C., Warner, G., Wasiak, M., Watkins, M., Weaver, A., Weilert, M., Weiser, N., Weiss, B., Weissman, S., Welty, A., West, G., Wheate, L., Wheatley, E., Wheeler, T., White, R., Whiteaker, K., Whitehouse, P., Whiteleather, J., Whitman, W., Williams, C., Willmer, C., Willoughby, S., Wilson, A., Wirth, G., Wislowski, E., Wolf, E., Wolfe, D., Wolff, S., Workman, B., Wright, R., Wu, C., Wu, R., Wymer, K., Yates, K., Yeager, C., Yeates, J., Yerger, E., Yoon, J., Young, A., Yu, S., Zak, D., Zeidler, P., Zhou, J., Zielinski, T., Zincke, C., Zonak, S., and bibliotheque, la.

Subjects
Science & Technology, Observatories, Infrared astronomy, Astronomical instrumentation, INFRARED SPECTROGRAPH NIRSPEC, FOS: Physical sciences, Astronomy and Astrophysics, Astronomy & Astrophysics, Settore FIS/05 - Astronomia e Astrofisica, Space and Planetary Science, Physical Sciences, Astrophysics - Instrumentation and Methods for Astrophysics, [PHYS.ASTR] Physics [physics]/Astrophysics [astro-ph], Instrumentation and Methods for Astrophysics (astro-ph.IM)
Abstract

This paper characterizes the actual science performance of the James Webb Space Telescope (JWST), as determined from the six month commissioning period. We summarize the performance of the spacecraft, telescope, science instruments, and ground system, with an emphasis on differences from pre-launch expectations. Commissioning has made clear that JWST is fully capable of achieving the discoveries for which it was built. Moreover, almost across the board, the science performance of JWST is better than expected; in most cases, JWST will go deeper faster than expected. The telescope and instrument suite have demonstrated the sensitivity, stability, image quality, and spectral range that are necessary to transform our understanding of the cosmos through observations spanning from near-earth asteroids to the most distant galaxies., Comment: 5th version as accepted to PASP; 31 pages, 18 figures; https://iopscience.iop.org/article/10.1088/1538-3873/acb293

Published
2022
Full Text
View/download PDF

6. The Multi-Commodity Network Flow Problem With Soft Transit Time Constraints

Author

David Franz Koza, Alessio Trivella, Francesco Corman, and David Pisinger

Subjects
Flexibility (engineering), History, Mathematical optimization, Polymers and Plastics, Generalization, Computer science, Commodity, Flow network, Industrial and Manufacturing Engineering, Operator (computer programming), Flow (mathematics), Column generation, Business and International Management, Routing (electronic design automation)
Abstract

The multi-commodity network flow problem (MCNF) consists in routing a set of commodities through a capacitated network at minimum cost and is relevant for routing containers in liner shipping networks. As commodity transit times are often a critical factor, the literature has introduced hard limits on commodity transit times. In practical contexts, however, these hard limits may fail to provide sufficient flexibility since routes with even tiny delays would be discarded. Motivated by a major liner shipping operator, we study an MCNF generalization where transit time restrictions are modeled as soft constraints, in which delays are discouraged using penalty functions of transit time. Similarly, early commodity arrivals can receive a discount in cost. We derive properties that distinguish this model from other MCNF variants and adapt a column generation procedure to efficiently solve it. Extensive numerical experiments conducted on realistic liner shipping instances reveal that the explicit consideration of penalty functions can lead to significant cost reductions compared to hard transit time deadlines. Moreover, the penalties can be used to steer the flow towards slower or faster configurations, resulting in a potential increase in operational costs, which generates a trade-off that we quantify under varying penalty functions.

Published
2020

7. Fabrication of Ultrasensitive TES Bolometric Detectors for HIRMES

Author

Alexander Kutyrev, David Franz, Ari-David Brown, Joseph Oxborrow, Regis P. Brekosky, Edward J. Wollack, Karwan Rostem, Timothy M. Miller, Vilem Mikula, Wen-Ting Hsieh, and S. Harvey Moseley

Subjects
010302 applied physics, Fabrication, Materials science, Spectrometer, business.industry, Detector, Bolometer, Condensed Matter Physics, 01 natural sciences, Atomic and Molecular Physics, and Optics, law.invention, On board, Observatory, law, 0103 physical sciences, Optoelectronics, General Materials Science, Transition edge sensor, 010306 general physics, business, Noise-equivalent power
Abstract

The high-resolution mid-infrared spectrometer (HIRMES) is a high resolving power (R ~ 100,000) instrument operating in the 25–122 μm spectral range and will fly on board the Stratospheric Observatory for Far-Infrared Astronomy in 2019. Central to HIRMES are its two transition edge sensor (TES) bolometric cameras, an 8 × 16 detector high-resolution array and a 64 × 16 detector low-resolution array. Both types of detectors consist of Mo/Au TES fabricated on leg-isolated Si membranes. Whereas the high-resolution detectors, with a noise equivalent power (NEP) ~ 1.5 × 10−18 W/rt (Hz), are fabricated on 0.45 μm Si substrates, the low-resolution detectors, with NEP ~ 1.0 × 10−17 W/rt (Hz), are fabricated on 1.40 μm Si. Here, we discuss the similarities and differences in the fabrication methodologies used to realize the two types of detectors.

Published
2018

8. The transit time constrained fixed charge multi-commodity network design problem

Author

Erik Orm Hellsten, Jean-François Cordeau, David Franz Koza, Ivan Contreras, and David Pisinger

Subjects
Network planning and design, Set (abstract data type), Mathematical optimization, Polynomial, Speedup, General Computer Science, Computer science, Modeling and Simulation, Path (graph theory), Sensitivity (control systems), Management Science and Operations Research, Solver, Exponential function
Abstract

This paper introduces the transit time constrained fixed charge multi-commodity network design problem. Transit times are origin-to-destination time limits for the commodities, which appear for example in transport systems with perishable goods. We discuss how to model the problem and present three different formulations of it. The first formulation is an exponential size path formulation, which we solve with a branch-and-price algorithm. Several speed up techniques from the literature on fixed charge multi-commodity network design problems are implemented, such as lifted cover inequalities and the recently proposed deep dual-optimal inequalities. In an extensive set of computational experiments, we show that these inequalities significantly improve the performance of the algorithm. The other two formulations are of polynomial size: one uses path indices and the other uses time indices. While the branch-and-price algorithm outperforms solving the compact formulations with a general-purpose mixed-integer programming solver, the study of compact models helps better understand the problem, and we can use them as benchmarks. A detailed sensitivity analysis of the branch-and-price algorithm shows that longer transit times and an increased ratio of fixed charge to flow cost increase the difficulty of solving the problem whereas the arc capacity has less impact. We further discuss in-depth implementational details.

Published
2021

9. The liquefied natural gas infrastructure and tanker fleet sizing problem

Author

David Franz Koza, Anna Boleda Molas, and Stefan Ropke

Subjects
050210 logistics & transportation, Engineering, 021103 operations research, Water transport, Operations research, business.industry, 05 social sciences, 0211 other engineering and technologies, ComputerApplications_COMPUTERSINOTHERSYSTEMS, Transportation, 02 engineering and technology, Decision rule, Sizing, Robustness (computer science), 0502 economics and business, Business and International Management, Predictability, business, Integer programming, Civil and Structural Engineering, Marine engineering, Liquefied natural gas, Fleet management
Abstract

We consider a strategic infrastructure and tanker fleet sizing problem in the liquefied natural gas business. The goal is to minimize long-term on-shore infrastructure and tanker investment cost combined with interrelated expected cost for operating the tanker fleet. A non-linear arc-based model and an exact solution method based on a set-partitioning formulation are developed. The latter approach allows very fast solution times. Computational results for a case study with a liner shipping company are presented, including an extensive sensitivity analysis to account for limited predictability of key parameter values, to analyze the solutions’ robustness and to derive basic decision rules.

Published
2017

10. Perspective on Improving Environmental Monitoring of Biothreats

Author

John Dunbar, Segaran Pillai, David Wunschel, Michael Dickens, Stephen A. Morse, David Franz, Andrew Bartko, Jean Challacombe, Timothy Persons, Molly A. Hughes, Steve R. Blanke, Robin Holland, Janine Hutchison, Eric D. Merkley, Katrina Campbell, Catherine S. Branda, Shashi Sharma, Luther Lindler, Kevin Anderson, and David Hodge

Subjects
0301 basic medicine, aerosols (bio-), Histology, Sampling efficiency, Computer science, lcsh:Biotechnology, detection, Biomedical Engineering, Bioengineering, 03 medical and health sciences, biological weapon attack, lcsh:TP248.13-248.65, Environmental monitoring, Robustness (economics), real-time sensing, Scope (project management), Technological change, Perspective (graphical), biowatch, Bioengineering and Biotechnology, 030104 developmental biology, Risk analysis (engineering), Perspective, Risk assessment, Large group, Biotechnology
Abstract

For more than a decade, the United States has performed environmental monitoring by collecting and analyzing air samples for a handful of biological threat agents (BTAs) in order to detect a possible biological attack. This effort has faced numerous technical challenges including timeliness, sampling efficiency, sensitivity, specificity, and robustness. The cost of city-wide environmental monitoring using conventional technology has also been a challenge. A large group of scientists with expertise in bioterrorism defense met to assess the objectives and current efficacy of environmental monitoring and to identify operational and technological changes that could enhance its efficacy and cost-effectiveness, thus enhancing its value. The highest priority operational change that was identified was to abandon the current concept of city-wide environmental monitoring because the operational costs were too high and its value was compromised by low detection sensitivity and other environmental factors. Instead, it was suggested that the focus should primarily be on indoor monitoring and secondarily on special-event monitoring because objectives are tractable and these operational settings are aligned with likelihood and risk assessments. The highest priority technological change identified was the development of a reagent-less, real-time sensor that can identify a potential airborne release and trigger secondary tests of greater sensitivity and specificity for occasional samples of interest. This technological change could be transformative with the potential to greatly reduce operational costs and thereby create the opportunity to expand the scope and effectiveness of environmental monitoring.

Published
2018

11. Advances and Future Directions for Tuberous Sclerosis Complex Research: Recommendations From the 2015 Strategic Planning Conference

Author

Mustafa Sahin, Elizabeth P. Henske, Brendan D. Manning, Kevin C. Ess, John J. Bissler, Eric Klann, David J. Kwiatkowski, Steven L. Roberds, Alcino J. Silva, Coryse St. Hillaire-Clarke, Lisa R. Young, Mark Zervas, Laura A. Mamounas, John Blenis, Thomas N. Darling, Vera P. Krymskaya, Joel Moss, Elahna Paul, Mario Pende, Minkyung H. Song, Andrew J. Wagner, Anna W. Byars, Diane C. Chugani, Gabriella D'Arcangelo, Petrus J. de Vries, Michael J. Gambello, Wendy B. Macklin, Charles A. Nelson, E. Martina Bebin, Peter B. Crino, David Franz, Brandy E. Fureman, Henrik Klitgaard, Darcy Krueger, Elizabeth Thiele, Howard L. Weiner, Michael Wong, Joyce Y. Wu, Karen Cichowski, Channing Der, Leon O. Murphy, Mark Nellist, Hope Northrup, Norbert Perrimon, Kari Luther Rosbeck, Reuben J. Shaw, Cara Long, and Heather Rieff

Subjects
0301 basic medicine, Research program, medicine.medical_specialty, Biomedical Research, Autism, Alternative medicine, Neurosurgery, Pediatrics, 03 medical and health sciences, Tuberous sclerosis, 0302 clinical medicine, Time frame, Research plan, Child Development, Developmental Neuroscience, Tuberous Sclerosis, Medicine, Animals, Humans, Child, Pharmaceutical industry, Strategic planning, Medical education, Brain Diseases, Epilepsy, business.industry, Neurocutaneous Syndromes, fungi, food and beverages, Infant, medicine.disease, Strategic Planning, United States, Disease Models, Animal, 030104 developmental biology, Neurology, Pediatrics, Perinatology and Child Health, Tuberous Sclerosis Complex, mTOR, Neurology (clinical), Nervous System Diseases, business, Neuroscience, Goals, 030217 neurology & neurosurgery
Abstract

On March 10 to March 12, 2015, the National Institute of Neurological Disorders and Stroke and the Tuberous Sclerosis Alliance sponsored a workshop in Bethesda, Maryland, to assess progress and new opportunities for research in tuberous sclerosis complex with the goal of updating the 2003 Research Plan for Tuberous Sclerosis (http://www.ninds.nih.gov/about_ninds/plans/tscler_research_plan.htm). In addition to the National Institute of Neurological Disorders and Stroke and Tuberous Sclerosis Alliance, participants in the strategic planning effort and workshop included representatives from six other Institutes of the National Institutes of Health, the Department of Defense Tuberous Sclerosis Complex Research Program, and a broad cross-section of basic scientists and clinicians with expertise in tuberous sclerosis complex along with representatives from the pharmaceutical industry. Here we summarize the outcomes from the extensive premeeting deliberations and final workshop recommendations, including (1) progress in the field since publication of the initial 2003 research plan for tuberous sclerosis complex, (2) the key gaps, needs, and challenges that hinder progress in tuberous sclerosis complex research, and (3) a new set of research priorities along with specific recommendations for addressing the major challenges in each priority area. The new research plan is organized around both short-term and long-term goals with the expectation that progress toward specific objectives can be achieved within a five to ten year time frame.

Published
2016

12. Evaluating the taste masking effectiveness of various flavors in a stable formulated pediatric suspension and solution using the Astree™ electronic tongue

Author

Choon K. Oh, Manasa Tsundupalli, Andrea Weinecke, Gossett A. Campbell, Joseph A. M. Charles, David Franz, Karen Roberts-Skilton, and Rebecca Wagner

Subjects
Active ingredient, Taste, Chromatography, Chemistry, General Chemical Engineering, Electronic tongue, Chemical stability, Suspension (vehicle), Purified water, High-performance liquid chromatography, Dilution
Abstract

Pediatric formulation development requires an understanding of the physico-chemical stability and the taste of the pharmaceutical drug product. Two model active pharmaceutical ingredients (compound X and compound Y) were used to develop a powder for reconstitution to a suspension and a solution dosage form after dilution with purified water. X-ray powder diffraction was used to monitor the physical stability of compound X in the suspension and high pressure liquid chromatography was used to monitor the chemical stability of compound Y in the solution. The most stable suspension (formulation T) and solution (formulation Z) were used to assess the change in taste-perception by different flavors using the Astree™ electronic tongue. The suspension was determined to be stable for 43 days and 21 days respectively at 5 °C and 25 °C/60% RH. Compound Y solution was chemically stable for up to 30 days at 25 °C/60% RH. The taste of the suspension was improved by Lemon and Cherry flavors. The taste of the solution was made better by Vanilla, Cherry, and Strawberry flavors. The significance of these results is that the e-Tongue can be used in the early stages of formulation development to eliminate flavors that do little to improve the palatability of a formulation.

Published
2012

13. ED Services: The Impact of Caring Behaviors on Patient Loyalty

Author

Sandra S. Liu, Patricia Mayne, Monette Allen, David Franz, Ruth White, En-Chung Chang, and Dana Janowiak

Subjects
Adult, Male, Indiana, Michigan, media_common.quotation_subject, Hospitals, Community, Observation, Emergency Nursing, Hospitals, Urban, Patient satisfaction, Nursing, Surveys and Questionnaires, Loyalty, Humans, Medicine, Aged, media_common, business.industry, Professional-Patient Relations, Emergency department, Middle Aged, Metropolitan area, Urban community, Study Site, District of Columbia, Alabama, Female, Observational study, Empathy, Treatment procedure, Emergency Service, Hospital, business
Abstract

Introduction This article describes an observational study of caring behaviors in the emergency departments of 4 Ascension Health hospitals and the impact of these behaviors on patient loyalty to the associated hospital. These hospitals were diverse in size and geography, representing 3 large urban community hospitals in metropolitan areas and 1 in a midsized city. Methods Research assistants from Purdue University (West Lafayette, IN) conducted observations at the first study site and validated survey instruments. The Purdue research assistants trained contracted observers at the subsequent study sites. The research assistants conducted observational studies of caregivers in the emergency departments at 4 study sites using convenience sampling of patients. Caring behaviors were rated from 0 (did not occur) to 5 (high intensity). The observation included additional information, for example, caregiver roles, timing, and type of visit. Observed and unobserved patients completed exit surveys that recorded patient responses to the likelihood-to-recommend (loyalty) questions, patient perceptions of care, and demographic information. Results Common themes across all study sites emerged, including (1) the area that patients considered most important to an ED experience (prompt attention to their needs upon arrival to the emergency department); (2) the area that patients rated as least positive in their actual ED experience (prompt attention to their needs upon arrival to the emergency department); (3) caring behaviors that significantly affected patient loyalty (eg, making sure that the patient is aware of care-related details, working with a caring touch, and making the treatment procedure clearly understood by the patient); and (4) the impact of wait time to see a caregiver on patient loyalty. A number of correlations between caring behaviors and patient loyalty were statistically significant (P Discussion The study results raised considerations for ED caregivers, particularly with regard to those caring behaviors that are most closely linked to patient loyalty but that occurred least frequently. The study showed through factor analysis that some caring behaviors tended to occur together, suggesting an underlying, unifying dimension to that factor.

Published
2010

14. Synthesis and Characterization of 2,7-Di(tert-butyl)pyreno[4,5-c:9,10-c′]difuran and Derived Pyrenophanes

Author

René T. Boeré, Peter W. Dibble, David Franz, and Steven J. Robbins

Subjects
chemistry.chemical_classification, Tert butyl, Molecular Structure, Stereochemistry, Organic Chemistry, Stereoisomerism, Ring (chemistry), Chemical synthesis, chemistry.chemical_compound, Hydrocarbon, chemistry, Butanes, Molecule, Polycyclic Compounds, Furans, Imide, Maleimide, Benzofurans, Cyclophane
Abstract

Isobenzofurans (IBF)s have seen widespread use in the synthesis of both natural products and polycyclic aromatic hydrocarbons. There are few examples that have two IBF entities linked in a fused aromatic ring system. Here we present the synthesis and characterization of a bis(IBF), 2,7-di(tert-butyl)pyreno[4,5-c:9,10-c']difuran. Reaction with bis(maleimide) dienophiles gives pyrenophanes. The solid-state structures of the bis(IBF) and two cyclophanes are discussed.

Published
2009

16. Effect of ionizing radiation on noise in MgB2 thin film – a candidate material for detector development for post-Cassini planetary missions

Author

B. Lakew, Shahid Aslam, David Franz, John C. Brasunas, H. Jones, and B. Moeckly

Subjects
Superconductivity, Materials science, Condensed matter physics, Noise spectral density, Bolometer, Energy Engineering and Power Technology, Substrate (electronics), Condensed Matter Physics, Electronic, Optical and Magnetic Materials, law.invention, Background noise, chemistry.chemical_compound, chemistry, law, Magnesium diboride, Electrical and Electronic Engineering, Thin film, Noise (radio)
Abstract

A thin film of MgB 2 , grown on a SiN–Si substrate, with a superconducting transition temperature, T c , near 39 K has been irradiated with γ-rays from a 60 Co source. The total dose was 100 Krads (Si). Its pre- and post-irradiation noise has been measured and noise spectral density plots made. No change in d R /d T , pre- and post-irradiation was measured. At the mid-point of the transition, T = 38.24 K, a noise spectral density S V = 0.34 nV Hz −1/2 was measured at 10 Hz. The temperature noise, K n , of the MgB 2 film at different frequencies is compared to that of high temperature superconducting (HTS) thin films (YBaCuO and GdBaCuO with T c ∼ 90 K) used currently in HTS transition-edge bolometers. Even with the observed post-irradiation small increase in noise, its lower T c and K n values predict that high performance far IR bolometers can be developed using MgB 2 as a thermistor.

Published
2006

17. External quantum efficiency of Pt/n-GaN Schottky diodes in the spectral range 5–500nm

Author

David Franz, Brent Mott, F. Yan, Shahid Aslam, Robert E. Vest, and Yuegang Zhao

Subjects
Physics, Nuclear and High Energy Physics, business.industry, Schottky diode, Epitaxy, Photodiode, law.invention, Responsivity, law, Sapphire, Optoelectronics, Quantum efficiency, Metalorganic vapour phase epitaxy, business, Instrumentation, Diode
Abstract

The external quantum efficiency in the spectral wavelength range 5–500 nm of a large active area Pt/n-type GaN Schottky photodiode that exhibits low reverse bias leakage current, is reported. The Schottky photodiodes were fabricated from n−/n+ epitaxial layers grown by low pressure metalorganic vapour phase epitaxy on single crystal c-plane sapphire. The current–voltage ( I – V ) characteristics of several 0.25 cm2 devices are presented together with the capacitance–voltage ( C – V ) characteristics of one of these devices. A leakage current as low as 14 pA at 0.5 V reverse bias is reported, for a 0.25 cm2 diode. The ultraviolet quantum efficiency measurements show that the diodes can be used as radiation hard detectors for the 5–365 nm spectral range without the use of visible blocking filters. A peak responsivity of 77.5 mA/W at 320 nm is reported for one of the fabricated devices, corresponding to a spectral detectivity, D * = 1.5 × 1 0 14 cm Hz 1 / 2 W - 1 . The average detectivity between 250 and 350 nm, for the same device, is reported to be D ¯ * = 1.3 × 1 0 14 cm Hz 1 / 2 W - 1 . The spatial responsivity uniformity variation was established, using H2 Lyman-α radiation, to be ±3% across the surface of a typical 0.25 cm2 diode.

Published
2005

18. 4H-SiC UV photo detectors with large area and very high specific detectivity

Author

Yuegang Zhao, Jian Hui Zhao, Shahid Aslam, Feng Yan, David Franz, M. Weiner, and Xiaobin Xin

Subjects
Materials science, business.industry, Wide-bandgap semiconductor, Quantum yield, Photodetector, Schottky diode, Specific detectivity, Condensed Matter Physics, Atomic and Molecular Physics, and Optics, Photodiode, law.invention, law, Optoelectronics, Quantum efficiency, Electrical and Electronic Engineering, business, Leakage (electronics)
Abstract

Pt/4H-SiC Schottky photodiodes have been fabricated with the device areas up to 1 cm/sup 2/. The I-V characteristics and photoresponse spectra have been measured and analyzed. For a 5 mm/spl times/5 mm area device leakage current lower than 10/sup -15/ A at zero bias and 1.2/spl times/10/sup -14/ A at -1 V have been established. The quantum efficiency is over 30% from 240 to 320 nm. The specific detectivity, D/sup */, has been calculated from the directly measured leakage current and quantum efficiency are shown to be higher than 10/sup 15/ cmHz/sup 1/2//W from 210 to 350 nm with a peak D/sup */ of 3.6/spl times/10/sup 15/ cmHz/sup 1/2//W at 300 nm.

Published
2004

19. Matrix connects Catholic principles to patient experience

Author

Peggy, Kurusz, David, Franz, and Pat A, Herrmann

Subjects
Physician-Patient Relations, Patient Satisfaction, Communication, Minnesota, Organizational Case Studies, Catholicism, Humans, Holistic Health, Cooperative Behavior, Delivery of Health Care
Published
2014

21. Predictive Modeling and Biomechanical Microengineering of Mesenchymal Stem Cells: A High Content Screening Platform to Enhance Lineage Specific Differentiation

Author

Michael Cho, David Franz, Amit Paul, Shan Sun, and Sumaira Yahya

Subjects
Lineage (genetic), medicine.anatomical_structure, Cellular differentiation, Precursor cell, Cell, Mesenchymal stem cell, medicine, Stem cell, Biology, Cytoskeleton, In vitro, Cell biology
Abstract

Recent evidence suggests that stem cell differentiation can be regulated by modulation of the cell’s biomechanics. The cytoskeletal structures and arrangements in stem cells undergoing differentiation are dramatically altered, and these alterations vary by lineage. The complexity of events associated with the transformation of these precursor cells leaves many questions unanswered about morphological, structural, proteomic, and functional changes in differentiating stem cells. A thorough understanding of stem cell behavior, both experimentally and computationally, would allow for the development of more effective approaches to the expansion of stem cells in vitro and for the regulation of their commitment to a specific phenotype.

Published
2013

24. Implementierung der ausgewählten NBD-Modelle

Author

David Franz Sales Zitzlsperger

Abstract

Im Folgenden werden die NBD-Modelle mit realen Daten angewandt. Genauer werden das ursprungliche NBD-Modell (vgl. Ehrenberg 1959; Ehrenberg 1988) sowie die NBD- Erweiterungen Pareto-NBD (vgl. Schmittlein/Morrison/Colombo 1987; Schmittlein/Peterson 1994; Fader/Hardie 2005c) und BG-NBD (vgl. Fader/Hardie/Lee 2005, 2008) anhand hauptsachlich zweier Datensatze implementiert.

Published
2013

25. Vollstochastische RFM-Prognosemodelle

Author

David Franz Sales Zitzlsperger

Abstract

Vollstochastische Modelle basieren auf den Annahmen des stochastischen Prozesses. Sie beschranken sich auf das Identifizieren des „Wahrscheinlichkeitsgesetzes“, nach welchem beobachtbare Transaktionen sich nachempfinden lassen.

Published
2013

27. Die erweiterten NBD-Modelle für analytisches CRM

Author

David Franz Sales Zitzlsperger

Abstract

Nachdem die erweiterten NBD-Modelle in Kapitel 3 „Vollstochastische RFM- Prognosemodelle“ vorgestellt und in Kapitel 4 die „Implementierung der ausgewahlten NBD-Modelle“ erlautert wurde, werden in diesem Abschnitt die Ergebnisse der Modellim-plementierung vorgestellt.

Published
2013

28. Healthy plants: necessary for a balanced 'One Health' concept

Author

Jacqueline Fletcher, David Franz, and J. Eugene LeClerc

Subjects
Public health, lcsh:Veterinary medicine, Animal, Health, Pathology, food and beverages, lcsh:SF600-1100, Disease, One Health, Plant, lcsh:Animal culture, Human, lcsh:SF1-1100
Abstract

All life forms depend ultimately upon sunlight to create the energy ‘currency’ required for the functions of living. Green plants can make that conversion directly but the rest of us would perish without access to foods derived, directly or indirectly, from plants. We also require their fibre which we use for clothing, building and other purposes. However, plants, just as humans and animals, are attacked by pathogens that cause a myriad of symptoms that can lead to reduced yields, lower quality products and diminished nutritional value. Plant pathogens share many features with their human and animal counterparts. Some pathogens - whether of humans, animals, or plants - have nimble genomes or the ability to pirate genes from other organisms via mobile elements. Some have developed the ability to cross kingdoms in their host ranges. Many others share virulence factors, such as the type III secretion system (T3SS) or mechanisms for sensing population density, that work equally well in all kingdoms. Certain pathogens of hosts in all kingdoms rely upon insect vectors and use similar mechanisms to ensure dispersal (and sometimes survival) in this way. Plant-pathogen interactions have more direct consequence for humans when the microbes are human pathogens such as Escherichia coli 0157:H7 and Salmonella spp., which can contaminate fresh produce or when they produce metabolites, such as mycotoxins, which are harmful when consumed. Finally, national biosecurity concerns and the need for prevention, preparedness and forensic capabilities cross all kingdom barriers. Thus, our communities that focus on one of these kingdoms have much to learn from one another and a complete and balanced ‘One Health’ initiative must be tripartite, embracing the essential components of healthy plants, healthy animals and healthy people.

Published
2010

29. The Seventies and Eighties

Author

Joseph E. Davis and David Franz

Abstract

This chapter explores the trajectories of two traditions of thinking about godlessness, which move in opposite directions in the 1970s and 1980s: the jeremiad tradition and the social scientific tradition. During this period, evangelicals and fundamentalists forcefully reasserted themselves in public life after decades of self‐imposed exile animated in part by stories of secularization and moral decay told by leaders Francis Schaeffer and Jerry Falwell. They entered the 1990s with new confidence and renewed hope. Many sociologists of religion, by contrast, were surprised by the surge of new religious energy and mobilization. They lost confidence in their predictions of religious decline and basic assumptions about the triumph of scientific rationalism. By the 1990s, consensus on their “secularization thesis” had collapsed.

Published
2008

30. A microshutter-based field selector for JWST's multi-object near infrared spectrograph

Author

R. G. Arendt, Alexander Kutyrev, Stephen Snodgrass, Leroy Sparr, D. Rapchun, David Franz, Robert F. Silverberg, S. Harvey Moseley, Mary J. Li, Gunther Kletetschka, and D. Sohl

Subjects
Physics, Galactic astronomy, James Webb Space Telescope, Astrophysics::Instrumentation and Methods for Astrophysics, Astronomy, Field of view, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics, Galaxy, law.invention, Telescope, Galaxy groups and clusters, law, Astrophysics::Earth and Planetary Astrophysics, Spectrograph, Astrophysics::Galaxy Astrophysics, Galaxy cluster
Abstract

One of the James Webb Space Telescope's (JWST) primary science goals is to characterize the epoch of galaxy formation in the universe and observe the first galaxies and clusters of galaxies. This goal requires multi-band imaging and spectroscopic data in the near infrared portion of the spectrum for large numbers of very faint galaxies. Because such objects are sparse on the sky at the JWST resolution, a multi-object spectrograph is necessary to efficiently carry out the required observations. We have developed a fully programmable array of microshutters that will be used as the field selector for the multi-object Near Infrared Spectrograph (NIRSpec) on JWST. This device allows apertures to be opened at the locations of selected galaxies in the field of view while blocking other unwanted light from the sky background and bright sources. In practice, greater than 100 objects within the field of view can be observed simultaneously. This field selection capability greatly improves the sensitivity and efficiency of NIRSpec. In this paper, we describe the microshutter arrays, their development, characteristics, fabrication, testing, and progress toward delivery of a flight-qualified field selection subsystem to the NIRSpec instrument team.

Published
2007

31. MEMS microshutter arrays for James Webb Space Telescope

Author

Kamili Jackson, Barney Lynch, Chris Ray, Liqin Wang, Todd King, Scott Schwinger, Leroy Sparr, Eric Schulte, Kevin L. Denis, Robert F. Silverberg, Peter K. Shu, Ruth Bradley, Christine A. Allen, Gunther Kletetschka, Audrey J. Ewin, Brent Mott, Valeriano Veronica, Mary J. Li, Tomoko Adachi, Lance Oh, David Franz, Larry Hess, Yun Zheng, D. Rapchun, Dan Kelly, Rosalind Steptoe-Jackson, Steve Snodgrass, Wayne Smith, Murzy D. Jhabvala, Vilem Mikula, Chris Zincke, Alexander Kutyrev, Harvey Moseley, Michael Beamesderfer, Sateesh Bajikar, Ron Hu, Sachi Babu, Nick Costen, D. Sohl, Timothy M. Miller, and James Pontius

Subjects
Microelectromechanical systems, Physics, business.industry, James Webb Space Telescope, Silicon on insulator, chemistry.chemical_compound, Optics, Silicon nitride, chemistry, Shutter, Deep reactive-ion etching, Optoelectronics, Wafer, Reactive-ion etching, business
Abstract

Two-dimensional MEMS microshutter arrays are being developed at NASA Goddard Space Flight Center for use in the near-infrared region on the James Webb Space Telescope (JWST). The microshutter arrays are designed for the selective transmission of light with high efficiency and high contrast. The JWST environment requires cryogenic operation at 35K. Microshutter arrays are fabricated out of silicon-oxide-insulated (SOI) silicon wafers. Arrays are close-packed silicon nitride membranes with a pixel size of 100x200 p. Individual shutters are patterned with a torsion flexure permitting shutters to open 90 degrees with a minimized mechanical stress concentration. The mechanical shutter arrays are fabricated using MEMS technologies. The processing includes a multi- layer metal deposition and patterning of shutter electrodes and magnetic pads, reactive ion etching (NE) of the front side to form shutters out of the nitride membrane, an anisotropic back-etch for wafer thinning, followed by a deep RIE (DRIE) back-etch down to the nitride shutter membrane to form W e s and relieve shutters from the silicon substrate. An additional metal deposition and patterning is used to form back electrodes. Shutters are actuated using a magnetic force and latched using an electrostatic force. . . . KEYWORDS: microshutter, MEMS, RIE, DRIE, micro-optics, near inbred, space telescope

Published
2006

32. Microshutter array development for the James Webb space telescope

Author

R. Hu, Lance Oh, Liqin L. Wang, Wayne Smith, Murzy D. Jhabvala, David Franz, Chris Ray, Leroy Sparr, Rosalind Steptoe-Jackson, Scott Schwinger, Chris Zincke, Sateesh Bajikar, James P. Loughlin, Bernard A. Lynch, Carol Sappington, Eric Schulte, Dan Kelly, Todd King, Nadine Acuna, Bill Newell, Edward Amatucci, L. Hess, Carl A. Kotechi, Sachi Babu, Alexander Kutyrev, Gunther Kletetschka, Ray Boucarut, Mary J. Li, Harvey Moseley, Rainer K. Fettig, Michael Beamesderfer, Brent Mott, Yun Zheng, Audrey J. Ewin, D. Rapchun, and Steve Snodgrass

Subjects
Microelectromechanical systems, Optics, Materials science, business.industry, Shutter, James Webb Space Telescope, Silicon on insulator, Deep reactive-ion etching, Wafer, Reactive-ion etching, business, Spectrograph
Abstract

Micro Electromechanical System (MEMS) microshutter arrays are being developed at NASA Goddard Space Flight Center for use as a field selector of the Near Infrared Spectrograph (NIRSpec) on the James Webb Space Telescope (JWST). The microshutter arrays are designed for the spontaneous selection of a large number of objects in the sky and the transmission of light to the NIRSpec detector with high contrast. The JWST environment requires cryogenic operation at 35 K. Microshutter arrays are fabricated out of silicon-on-insulator (SOI) silicon wafers. Arrays are close-packed silicon nitride membranes with a pixel size of 100 x 200 μm. Individual shutters are patterned with a torsion flexure permitting shutters to open 90 degrees with a minimized mechanical stress concentration. Light shields are processed for blocking light from gaps between shutters and frames. The mechanical shutter arrays are fabricated using MEMS technologies. The processing includes multi-layer metal depositions, the patterning of magnetic stripes and shutter electrodes, a reactive ion etching (RIE) to form shutters out of the nitride membrane, an anisotropic back-etch for wafer thinning, followed by a deep RIE (DRIE) back-etch to form mechanical supporting grids and release shutters from the silicon substrate. An additional metal deposition is used to form back electrodes. Shutters are actuated by a magnetic force and latched using an electrostatic force. Optical tests, addressing tests, and life tests are conducted to evaluate the performance and the reliability of microshutter arrays.

Published
2005

33. Microshutter arrays for near-infrared applications on the James Webb Space Telescope

Author

Yun Zheng, C. Zinke, David Franz, A. Bier, Rainer K. Fettig, Mary J. Li, Wayne Smith, Alexander Kutyrev, D. Rapchun, Robert F. Silverberg, Liqin L. Wang, Bernard A. Lynch, R. Hu, Samuel H. Moseley, D. B. Mott, and Todd King

Subjects
Microelectromechanical systems, Materials science, business.industry, James Webb Space Telescope, Nitride, law.invention, Telescope, Optics, law, Shutter, Deep reactive-ion etching, Wafer, Reactive-ion etching, business
Abstract

Magnetically actuated MEMS microshutter arrays are being developed at the NASA Goddard Space Flight Center for use in a multi-object spectrometer on the James Webb Space Telescope (JWST), formerly Next Generation Space Telescope (NGST). The microshutter arrays are designed for the selective transmission of light with high efficiency and high contrast. The JWST environment requires cryogenic operation at 45K. Microshutter arrays are fabricated out of silicon-on-insulator (SOI) wafers. Arrays consist of close-packed shutters made on silicon nitride (nitride) membranes with a pixel size of 100 × 100 m. Individual shutters are patterned with a torsion flexure permitting shutters to open 90°, with a minimized mechanical stress concentration. Shutters operated this way have survived fatigue life test. The mechanical shutter arrays are fabricated using MEMS technologies. The processing includes a multi-layer metal deposition, patterning of shutter electrodes and magnetic pads, reactive ion etching (RIE) of the front side to form shutters in a nitride film, an anisotropic back-etch for wafer thinning, and a deep RIE (DRIE) back-etch, down to the nitride shutter layer, to form support frames and relieve shutters from the silicon substrate. An additional metal deposition and patterning has recently been developed to form electrodes on the vertical walls of the frame. Shutters are actuated using a magnetic force, and latched electrostatically. One-dimensional addressing has been demonstrated.

Published
2003

34. Magnetically actuated microshutter arrays

Author

David Franz, Alexander Kutyrev, Mary J. Li, D. S. Schwinger, D. B. Mott, Shahid Aslam, Samuel H. Moseley, Rainer K. Fettig, Kenneth A. Blumenstock, and Carlos J. Monroy

Subjects
Microelectromechanical systems, Materials science, business.industry, Nitride, Chip, chemistry.chemical_compound, Optics, Silicon nitride, chemistry, Shutter, Magnet, Deep reactive-ion etching, Reactive-ion etching, business
Abstract

Two-dimensional microshutter arrays are being developed at NASA Goddard Space Flight Center (GSFC) for the Next Generation Space Telescope (NGST) for use in the near-infrared region. Functioning as focal plane object selection devices, the microshutter arrays are 2-D programmable masks with high efficiency and high contrast. The NGST environment requires cryogenic operation at 45 K. Arrays are close-packed silicon nitride membranes with a unit cell size of 100x100 micrometer. Individual shutters are patterned with a torsion flexure permitting shutters to open 90 degrees with minimized mechanical stress concentration. The mechanical shutter arrays are fabricated with MEMS technologies. The processing includes a RIE front-etch to form shutters out of the nitride membrane, an anisotropic back-etch for wafer thinning, and a deep RIE (DRIE) back-etch down to the nitride shutter membrane to form frames and to relieve the shutters from the silicon substrate. A layer of magnetic material is deposited onto each shutter. Onto the side-wall of the support structure a metal layer is deposited that acts as a vertical hold electrode. Shutters are rotated into the support structure by means of an external magnet that is swept across the shutter array for opening. Addressing is performed through a scheme using row and column address lines on each chip and external addressing electronics.

Published
2001

35. Fabrication of microshutter arrays for space application

Author

Yun Zheng, Rainer K. Fettig, David Franz, Carl A. Kotecki, D. B. Mott, Carlos J. Monroy, Samuel H. Moseley, Mary J. Li, Alexander Kutyrev, Audrey J. Ewin, and I. S. Aslam

Subjects
Microelectromechanical systems, Materials science, Fabrication, business.industry, James Webb Space Telescope, Nitride, chemistry.chemical_compound, Optics, Silicon nitride, chemistry, Shutter, Deep reactive-ion etching, Reactive-ion etching, business
Abstract

Two-dimensional microshutter arrays are being developed at NASA Goddard Space Flight Center for the Next Generation Space Telescope (NGST) for use in the near-infrared region. Functioning as object selection devices, the microshutter arrays are designed for the transmission of light with high efficiency and high contrast. The NGST environment requires cryogenic operation at 45K. Arrays are close-packed silicon nitride membranes with a pixel size of 100 X 100 micrometers . Individual shutters are patterned with a torsion flexure permitting shutters to open 90 degrees with a minimized mechanical stress concentration. The mechanical shutter arrays are fabricated with MEMS technologies. The processing includes a RIE front-etch to form shutters out of the nitride membrane, an anisotropic back-etch for wafer thinning, and a deep RIE (DRIE) back-etch down to the nitride shutter membrane to form frames and to relieve shutters from the silicon substrate. Two approaches for shutter actuation have been developed. Shutters are actuated using either a combined mechanical and electrostatic force or a combined magnetic and electrostatic force. A CMOS circuit embedded in the frame between shutters allows programmable shutter selection for the first approach. A control of row and column electrodes fulfills shutter selection for the second approach.

Published
2001

36. Bioterrorism as a public health threat

Author

Joseph E. McDade and David Franz

Subjects
medicine.medical_specialty, business.industry, Public health, lcsh:R, lcsh:Medicine, Poison control, Human factors and ergonomics, Violence, medicine.disease, Suicide prevention, United States, Occupational safety and health, lcsh:Infectious and parasitic diseases, Injury prevention, Biological warfare, Biological Warfare, Medicine, Humans, lcsh:RC109-216, Research article, Medical emergency, Public Health, business, Research Article
Published
1998

37. Dual-band deep ultraviolet AlGaN photodetectors

Author

Laddawan Miko, Bing Guan, J.P. Zhang, R. Gaska, David Franz, Shahid Aslam, D. Pugel, and Caroline Kilbourn Stahle

Subjects
Materials science, business.industry, Detector, Wide-bandgap semiconductor, Photodetector, Sense (electronics), B band, Radiation, medicine.disease_cause, Optics, medicine, Optoelectronics, Electrical and Electronic Engineering, Homojunction, business, Ultraviolet
Abstract

We report on the design, fabrication and characterization of a back-illuminated voltage bias selectable dual-band AlGaN UV photodetector. The photodetector can separate UVA and W-B band radiation by bias switching a two terminal n-p-n homojunction structure that is fabricated in the same pixel. When a forward bias is applied between the top and bottom electrodes, the detector can sense UV-A and reject W-B band radiation. Alternatively, under reverse bias, the photodetector can sense UV-B and reject UV-A band radiation.

Published
2007

38. Al0.35Ga0.65N pin diodes exhibiting sub-fA leakage currents

Author

Shahid Aslam, David Franz, I. Ferguson, F. Yan, A. Payne, and A. Asghar

Subjects
Materials science, Aluminium nitride, business.industry, PIN diode, Gallium nitride, Standard deviation, law.invention, chemistry.chemical_compound, chemistry, law, Ternary compound, Optoelectronics, Electrical and Electronic Engineering, Photolithography, business, Leakage (electronics), Diode
Abstract

Using conventional photolithography, Al 0.35 Ga 0.65 N pin diodes have been fabricated that exhibit extremely low reverse bias leakage currents. Macroscopic I-V measurements from a statistical population of 64, 120 μm diameter, circular diodes gives a mean leakage current of 0.96 fA with a standard deviation of 0.90 fA at -0.5 V bias.

Published
2005

39. Large area GaN Schottky photodiode with low leakage current

Author

F. Yan, David Franz, Shahid Aslam, Robert E. Vest, and Yuegang Zhao

Subjects
Materials science, business.industry, Schottky diode, Gallium nitride, Photodiode, law.invention, Responsivity, chemistry.chemical_compound, Optics, chemistry, law, Optoelectronics, Quantum efficiency, Electrical and Electronic Engineering, business, Diode, Extrinsic semiconductor, Leakage (electronics)
Abstract

Pt/n-type GaN Schottky photodiodes with large active areas which exhibit low leakage currents are fabricated. Reverse bias leakage currents of 2.7 nA for a 1 cm2 diode and 14 pA for a 0.25 cm2 diode both at −0.5 V bias are reported. External quantum efficiency measurements between the spectral range 50 to 500 nm gave a peak responsivity of 77.5 mA/W at 320 nm for a 0.25 cm2 diode, corresponding to a spectral detectivity, D*=1.5×1014 cmHz1/2W−1.

Published
2004

40. Liner shipping service scheduling and cargo allocation

Author

David Franz Koza

Subjects
Service (business), 050210 logistics & transportation, Schedule, 021103 operations research, Information Systems and Management, General Computer Science, Operations research, Computer science, Payload, Branch and price, 05 social sciences, 0211 other engineering and technologies, 02 engineering and technology, Management Science and Operations Research, Industrial and Manufacturing Engineering, Scheduling (computing), Transshipment, Modeling and Simulation, 0502 economics and business, Synchronization (computer science), Fuel efficiency, Liner shipping
Abstract

Tactical service scheduling and operational cargo allocation are two interdependent problems in liner shipping. The schedules and sailing speeds of individual liner shipping services and the synchronization among all services determine the transit times of containers through a liner shipping network. On the other hand, the market demand in terms of container volume and expected transit times between origin and destination ports drive the schedule design of liner shipping services. We present a graph-based model and a branch-and-price algorithm to solve the combined problem. The goal is to minimize the difference between fuel consumption costs and revenues from transporting containers under consideration of transit time limits. Fuel consumption is modeled as a function of both speed and payload. Results are presented for 12 liner shipping networks and emphasize the importance of explicitly modeling schedules in large networks; transshipment times and thus transit times may be severely miscalculated otherwise. The results further show that neglecting payload in the fuel consumption function can result in suboptimal service schedules and cargo routing decisions.

41. Disruptions in large container shipping networks: How Operations Research can help to get container vessels back on schedule and minimize impact on cargo

Author

David Franz Koza, David Pisinger, Grzegorz Siekaniec, and Emil Sokoler

Abstract

In large liner shipping networks, several hundred container vessels operate 24/7,following planned routes and timetables. These networks constantly face unexpected disruptions of varying magnitude. Among the most common reasons are bad weather, port congestions, labour strikes or equipment breakdowns at ports or on vessels. Disruptions may result in delayed vessels, temporarily disabled vessels, reduced port productivity, and port closures. Due to the cargo-driven connectivity of liner shipping networks, even a single delayed vessel can create ripple effects that affect multiple other vessels. Resolving disruptions is a trade-off between minimizing operational vessel costs and port call costs on one side, and minimizing the impact on cargo, such as delays andre-routings, on the other side. We present a model and solution method that generates a set of recovery plans for the decision maker. We present preliminary results for testcases that were developed together with our industrial collaborator Mærsk. We will further discuss various challenges that arise in practice - such as incomplete information and intangible costs - and how we deal with those.

42. Liner shipping disruption management in practice: Generating recovery plans for vessels and cargo

Author

David Franz Koza, David Pisinger, Grzegorz Siekaniec, and Emil Sokoler

Subjects
Container liner shipping, Disruption management, Vessel and cargo recovery planning
Abstract

In large liner shipping networks, several hundred container vessels operate 24/7, following planned routes and timetables. These networks constantly face unexpected disruptions of varying magnitude. Among the most common reasons are bad weather, port congestions, labour strikes or equipment breakdowns at ports or on vessels. Disruptions may result in delayed vessels, temporarily disabled vessels, reduced port productivity, and port closures. Due to the cargo-driven connectivity of liner shipping networks, even a single delayed vessel can create ripple effects that affect multiple other vessels. Resolving disruptions is a trade-off between minimizing operational vessel costs and port call costs on one side, and minimizing the impact on cargo, such as delays and re-routings, on the other side. One difficulty of finding a good trade-off arises from the fact that cargo related costs are largely not tangible or directly quantifiable, such as lost reputation and customer churn. Incomplete information during the planning of recovery plans adds another challenge: ports may reject a revised vessel schedule if no berthing window is available, resulting in multiple iterations of recovery planning. We present a model and solution method that generates a set of recovery plans for the decision maker. We present preliminary results for test cases that were developed together with our industrial collaborator Maersk.

43. Combined optimization for offshore wind farms

Author

Davide Cazzaro, David Franz Koza, and David Pisinger

Abstract

The two main challenges of optimizing a wind farm are the design of the turbine layout and the design of the cable routing. The first task consists in placing each turbine such that overall power production is maximized, the wake effect (wind shadow) between turbines is minimized, and foundation costs are minimized as well. The second task is to select the minimum cost cable routing to connect the turbines with submarine cables, which transfer the produced electricity to a substation and then onshore. Although the typical procedure is to solve the two problems sequentially, we investigate the benefit of solving them together. Few studies in the literature attempt to join these two optimization problems, which are often simplified to keep the computational complexity low. In our work, we model the combined problem with all constraints relevant to practical applications of wind farm design. We also present a novel local search that integrates the two problems, thus allowing the cable routing to give direct feedback to the turbine positions in the layout. We benchmark the combined optimization on a set of realistic industry-scale wind farm instances. Our results show that the combined optimization outperforms the sequential approach, especially for lower energy density wind farms, due to the significant savings in the cable routing which widely compensate for a slight reduction in power production.

Catalog

Books, media, physical & digital resources
See catalog results