From 14dc5466426ec4d6678ead5a608d3b97eb211e42 Mon Sep 17 00:00:00 2001 From: Dane Sabo Date: Wed, 6 Nov 2024 10:53:30 -0500 Subject: [PATCH] vault backup: 2024-11-06 10:53:30 --- 201 Metadata/My Library.bib | 67 +++++++++++++++++++++++++++++++++++++ 1 file changed, 67 insertions(+) diff --git a/201 Metadata/My Library.bib b/201 Metadata/My Library.bib index e7bb15a7a..8bda416ad 100644 --- a/201 Metadata/My Library.bib +++ b/201 Metadata/My Library.bib @@ -8001,6 +8001,34 @@ Insights from the Social Sciences.pdf} urldate = {2024-07-10} } +@online{Module_10_Notespdf2251NUCE, + title = {Module\_10\_{{Notes}}.Pdf: 2251 {{NUCE}} 2100 {{SEC1250 FUNDAMENTALS NUCLEAR ENGR}}}, + url = {https://canvas.pitt.edu/courses/280885/files/17486317?module_item_id=5008246}, + urldate = {2024-11-05}, + file = {/home/danesabo/Zotero/storage/CZ8T42B9/Module_10_Notes.pdf 2251 NUCE 2100 SEC1250 FUNDAMENTALS NUCLEAR ENGR.pdf;/home/danesabo/Zotero/storage/IWIBHHH2/17486317.html} +} + +@online{Module101Heat, + title = {Module 10.1 - {{Heat Generation}} in {{Reactor Structure}}.Pdf: 2251 {{NUCE}} 2100 {{SEC1250 FUNDAMENTALS NUCLEAR ENGR}}}, + url = {https://canvas.pitt.edu/courses/280885/files/17486315?module_item_id=5008243}, + urldate = {2024-11-05}, + file = {/home/danesabo/Zotero/storage/BVZ8R6Y6/Module 10.1 - Heat Generation in Reactor Structure.pdf 2251 NUCE 2100 SEC1250 FUNDAMENTALS NUCLEAR.pdf;/home/danesabo/Zotero/storage/UV4FSZ2U/17486315.html} +} + +@online{Module102Convective, + title = {Module 10.2 - {{Convective Heat Transfer}}.Pdf: 2251 {{NUCE}} 2100 {{SEC1250 FUNDAMENTALS NUCLEAR ENGR}}}, + url = {https://canvas.pitt.edu/courses/280885/files/17486277?module_item_id=5008244}, + urldate = {2024-11-05}, + file = {/home/danesabo/Zotero/storage/3TCIS49R/Module 10.2 - Convective Heat Transfer.pdf 2251 NUCE 2100 SEC1250 FUNDAMENTALS NUCLEAR ENGR.pdf;/home/danesabo/Zotero/storage/FM8E6E33/17486277.html} +} + +@online{Module10Reviewpdf, + title = {Module 10 {{Review}}.Pdf: 2251 {{NUCE}} 2100 {{SEC1250 FUNDAMENTALS NUCLEAR ENGR}}}, + url = {https://canvas.pitt.edu/courses/280885/files/17486254?module_item_id=5008245}, + urldate = {2024-11-05}, + file = {/home/danesabo/Zotero/storage/8EZ9FFD3/Module 10 Review.pdf 2251 NUCE 2100 SEC1250 FUNDAMENTALS NUCLEAR ENGR.pdf;/home/danesabo/Zotero/storage/BK36WRH6/17486254.html} +} + @online{Module81Fission, title = {Module 8.1 - {{Fission Heat Generation-1}}.Pdf: 2251 {{NUCE}} 2100 {{SEC1250 FUNDAMENTALS NUCLEAR ENGR}}}, url = {https://canvas.pitt.edu/courses/280885/files/17486316?module_item_id=5008211}, @@ -8036,6 +8064,27 @@ Insights from the Social Sciences.pdf} file = {/home/danesabo/Zotero/storage/JMCTU5LC/Module 8 Review-1.pdf 2251 NUCE 2100 SEC1250 FUNDAMENTALS NUCLEAR ENGR.pdf;/home/danesabo/Zotero/storage/TRAWYPDA/17486300.html} } +@online{Module91NonIdeal, + title = {Module 9.1 - {{Non-Ideal Conduction}}.Pdf: 2251 {{NUCE}} 2100 {{SEC1250 FUNDAMENTALS NUCLEAR ENGR}}}, + url = {https://canvas.pitt.edu/courses/280885/files/17486245?module_item_id=5008227}, + urldate = {2024-11-05}, + file = {/home/danesabo/Zotero/storage/H6TSG6E4/Module 9.1 - Non-Ideal Conduction.pdf 2251 NUCE 2100 SEC1250 FUNDAMENTALS NUCLEAR ENGR.pdf;/home/danesabo/Zotero/storage/J5LBE3WR/17486245.html} +} + +@online{Module9Class, + title = {Module 9 {{Class Notes}}.Pdf: 2251 {{NUCE}} 2100 {{SEC1250 FUNDAMENTALS NUCLEAR ENGR}}}, + url = {https://canvas.pitt.edu/courses/280885/files/17486302?module_item_id=5008229}, + urldate = {2024-11-05}, + file = {/home/danesabo/Zotero/storage/QMAZHA6B/Module 9 Class Notes.pdf 2251 NUCE 2100 SEC1250 FUNDAMENTALS NUCLEAR ENGR.pdf;/home/danesabo/Zotero/storage/6VTJ86YT/17486302.html} +} + +@online{Module9Reviewpdf, + title = {Module 9 {{Review}}.Pdf: 2251 {{NUCE}} 2100 {{SEC1250 FUNDAMENTALS NUCLEAR ENGR}}}, + url = {https://canvas.pitt.edu/courses/280885/files/17486314?module_item_id=5008228}, + urldate = {2024-11-05}, + file = {/home/danesabo/Zotero/storage/LMDMTSWZ/Module 9 Review.pdf 2251 NUCE 2100 SEC1250 FUNDAMENTALS NUCLEAR ENGR.pdf;/home/danesabo/Zotero/storage/XCBWNRXB/17486314.html} +} + @inproceedings{mohanS3ASecureSystem2013, title = {{{S3A}}: Secure System Simplex Architecture for Enhanced Security and Robustness of Cyber-Physical Systems}, shorttitle = {{{S3A}}}, @@ -11799,6 +11848,24 @@ Subject\_term: Careers, Politics, Policy}, file = {/home/danesabo/Zotero/storage/N5C6ILB6/Tao and Taur - 2005 - Robust fuzzy control for a plant with fuzzy linear.pdf;/home/danesabo/Zotero/storage/W2MJ8X2B/1392998.html} } +@article{taylorControllerDesignNonlinear2014, + title = {Controller Design for Nonlinear Systems Using the {{Contoured Robust Controller Bode}} Plot}, + author = {Taylor, J. D. and Messner, William}, + date = {2014}, + journaltitle = {International Journal of Robust and Nonlinear Control}, + volume = {24}, + number = {18}, + pages = {3196--3213}, + issn = {1099-1239}, + doi = {10.1002/rnc.3049}, + url = {https://onlinelibrary.wiley.com/doi/abs/10.1002/rnc.3049}, + urldate = {2024-11-06}, + abstract = {SUMMARYIn this paper, we develop the Contoured Robust Controller Bode (CRCBode) plot and demonstrate its use in the design of robust controllers for nonlinear single-input single-output (SISO) systems. The CRCBode plot shows contours (level sets) of a robust performance quantity on the Bode magnitude and phase plots of the controller. An iterative frequency domain loop-shaping design approach is employed to eliminate all intersections of the controller frequency response with certain ‘forbidden regions,’ indicating that a standard SISO robust stability and performance criterion is satisfied. Nonlinearities are accounted for by avoiding the maximum forbidden regions over a structured uncertainty set consisting of linearizations of the system dynamics about several operating points. We demonstrate this technique by designing and experimentally verifying a flow-rate controller for a butterfly-valve based liquid cooling system, which is robust to valve nonlinearities and flow disturbances. Finally, we compare this compensator with one generated using an automated H ∞ synthesis algorithm and discuss the advantages of the CRCBode approach. Copyright © 2013 John Wiley \& Sons, Ltd.}, + langid = {english}, + keywords = {butterfly valves,flow-rate regulation,loop-shaping,nonlinear systems,robust control}, + file = {/home/danesabo/Zotero/storage/ZANUQYPT/Taylor and Messner - 2014 - Controller design for nonlinear systems using the Contoured Robust Controller Bode plot.pdf;/home/danesabo/Zotero/storage/V7ULZRT3/rnc.html} +} + @misc{tcolorbox, title = {Tcolorbox {{Package}}}, file = {/home/danesabo/Zotero/storage/6PN2AWJK/tcolorbox.pdf}