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Companion MATLAB Live Script for <i>A Survey of Methods for the Discretization of Phonograph Record Playback Filters</i>
This record links to a MATLAB live script that serves as a supplemental resource to the paper, A Survey of Methods for the Discretization of Phonograph Record Playback Filters. This script allows the user to experiment with different methods for discretizing playback equalization filters including zero-order hold, the triangle approximation, the impulse invariant method, the bilinear transform, zero-pole matching, complex error minimization, magnitude error minimization, and the Nyquist band transform. The user can also specify the amount of oversampling to be implemented. The time domain, magnitude, and phase performance of any configuration is quantified and displayed graphically. The user can also use any configuration to process audio that they provide.</p
The Modular μSiM: ICAM1_UniBe_RawFiles
Raw data for ICAM-1 imaging across EECM-BMECs at UR and UniBe for Fig. 6 of The Modular µSiM: A Mass Produced, Rapidly Assembled, and Reconfigurable Platform for the Study of Barrier Tissue Models In Vitro</p
The Modular μSiM: Perm_EECMBMEC_MM_20220201 Transwell iPSC BMEC Permeability.xlsx
Raw data for EECM-BMEC permeability using sampling method at UR and UniBe labs for Fig. 6 in The Modular µSiM: A Mass Produced, Rapidly Assembled, and Reconfigurable Platform for the Study of Barrier Tissue Models In Vitro</p
The Modular μSiM: Perm_EECMBMEC_20220704_IMR_6days_Pe_LY_PK_analyzed.xlsx
Raw data for EECM-BMEC permeability using sampling method at UR and UniBe labs for Fig. 6 in The Modular µSiM: A Mass Produced, Rapidly Assembled, and Reconfigurable Platform for the Study of Barrier Tissue Models In Vitro</p
The Modular μSiM: m-µSiM_DataSummary_Fig2_Fig3.xlsx
Compilation and summary for all hCMEC/D3 in situ and sampling permeability assays. Dates are included to reference full raw data files. Data for The Modular μSiM: A Mass Produced, Rapidly Assembled, and Reconfigurable Platform for the Study of Barrier Tissue Models In Vitro</p
The Modular μSiM: insituPerm_Coated_ImageJ Analysis_2021-07-07.xlsx
in situ permeability raw data (extracted fluorescence intensity values) for The Modular μSiM: A Mass Produced, Rapidly Assembled, and Reconfigurable Platform for the Study of Barrier Tissue Models In Vitro</p
AI Art Literacy
As AI looms over the academic landscape, more and more librarians are stepping up to teach AI literacy. Most workshops and lessons are based on large language models (LLM) like ChatGPT, neglecting generative adversarial networks (GAN) and diffusion models, like Stable Diffusion, Midjourney and DALL-E. How can academic librarians incorporate this type of AI literacy into their library sessions? This presentation will examine some of the ethical issues surrounding AI art and how students can engage with it in an ethical in informed manner.</p
Working Papers in the Language Sciences (WPLS), Volume 6, Number 1, Fall 2011
Working Papers in the Language Sciences at the University of Rochester (WPLS: UR) is an online publication of working papers from the University's interdisciplinary language sciences community.Any student or faculty member from the University of Rochester can submit their working papers for consideration.For more information, please visit the Working Papers in the Language Sciences homepage.Table of Contents;Editors: Alex B. FineThe Tsuut'ina Vocalic Systemby Santiago BarredaMorpheme Segmentation in School-aged Childrenby Sara Finley & Elissa NewportDe-Maxim-Izing Qualityby Christine GunlogsonReplicating Goddard: A contemporary airflow and egg study of Dene Su Łineby Joyce McDonough, Benjamin Tucker, Valerie Wood, Horace AdamsA Brief Report on Voice Mismatch Effects in Verb Phrase Ellipsis and Sluicingby Jeffrey Runner and Timothy DozatAcoustic Phonetic Analysis as a Means Defining the Phonemic Inventory: Evidence from the Vowel Space in Tsuut'inaby Michelle Sims</p
Demographic information of participants, their PD diagnosis, screening labels provided by clinicians, and screening predictions made by PARK
Data dictionary:date: date of data collection;protocol: tag for eight different study protocols used to recruit participants;test_split: global (balanced test data), validation_1 (external evaluation supervised), validation_2 (external evaluation unsupervised);pred_score_smile: predicted probability of having PD based on the smile-task model;pred_score_speech: predicted probability of having PD based on the speech-task model;pred_score_finger: predicted probability of having PD based on the finger-tapping-task model;pred_score_fusion: predicted probability of having PD provided by the PARK tool;true_label: 1 (with PD), 0 (without PD);uncertain_flag: True (PARK was uncertain about the prediction), False (not uncertain);neurologist_label_N1/2/3: 1 (clinician 1/2/3 thought individuals had signs of PD), 0: non-PD</p
Making Homemakers Responsible for Safety: Housework, Laundry Equipment, and the Unequal Burdens of Accident Prevention, c. 1910–80
Abstract:This article investigates how twentieth-century U.S. corporations, nonprofit safety experts, and engineers came together to control the risks of home laundry equipment. Professionals worked with citizen-consumers to form a “voluntary safety system” intended to prevent injuries using education, markets for “safe” appliances, and consumer product testing. This system catered to informed middle-class families and relied on the principles of personal responsibility and free enterprise. Although home safety measures decreased fatal accidents, they disproportionately added to the workloads of contemporary homemakers and reinforced existing gender and class inequities. These inequities, this article argues, set the stage for later government intervention, offering new insights into the intersections between consumer technology, domestic labor, and regulation. Repositioning the history of safety from workplaces and transportation networks to the home, this article shows how injury prevention influenced how Americans shopped for and used potentially dangerous laundry machines.Citation: Parry, Alexander I. “Making Homemakers Responsible for Safety: Housework, Laundry Equipment, and the Unequal Burdens of Accident Prevention, c. 1910–80.” Technology and Culture 66, no. 2 (2025): 411-447.</p