Die soziale bedeutung des Hamburger hafenarbeiterstreiks von 1896/97 ...

Mascher, Herbert,

January 1934

Inaug.-diss.--Hamburg. / Lebenslauf. "Literaturverzeichnis": p. v-vi.

Understanding and managing 'schools as communities' and 'communitarian schools' a critique of Kenneth Strike's view /

Park, Jae Hyung.

January 2002

Thesis (M.Ed.)--University of Hong Kong, 2002. / Includes bibliographical references (leaves 104-112). Also available in print.

The Supply and Transport Committee, 1919-1926 a study of the British government's method of handling emergencies stemming from industrial disputes.

Desmarais, Ralph H.

January 1900

Thesis (Ph. D.)--University of Wisconsin--Madison, 1970. / Typescript. Vita. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references.

The December 1905 armed rising in Moscow an experiment in revolution.

Hanson, Gary A.

January 1965

Thesis (M.A.)--University of Wisconsin--Madison, 1965. / eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves 172-180).

Characterization of Aftershock Sequences from Large Strike-Slip Earthquakes Along Geometrically Complex Faults

Sexton, Emily

06 September 2018

Large earthquakes often exhibit complex slip distributions and occur along non-planar faults, resulting in variable stress changes throughout the fault region. To better discern the role of stress changes and fluid flow on aftershock sequences, we examine areas of enhanced and reduced mean stress along the structurally complex strike-slip faults that hosted the 1992 Landers, 2010 El-Mayor Cucapah, and 2016 Kumamoto earthquakes. We characterize the behavior of aftershock sequences with the Epidemic Type Aftershock-Sequence Model and use the Maximum Log Likelihood method to determine the optimal set of ETAS parameter values along each fault. This study indicates that extensional areas experience greater secondary aftershock triggering and a higher density of aftershocks directly following the mainshock, which could be attributed to fluid influx. However, our results also highlight some shortcomings of the ETAS model, including high parameter correlation, and influence of catalog size and magnitude cutoff on parameter estimations.

Aftershocks

ETAS

Stress Change

Strike-Slip

From Guantanamo Bay to Pelican Bay: Hunger Striking and the Biopolitical Geographies of Resistance

Morse, Adam

27 October 2016

In this work I illustrate the ways in which power structures function in operationalizing geographies of resistance in two particular carceral spaces. Specifically I examine the social organization and internal power relations present within hunger striking prison populations at Guantanamo Bay, Cuba and at Pelican Bay State Prison in Crescent City, California. I show that the Guantanamo hunger strikes are minimally organized with non-binding power structures, while the Pelican Bay hunger strikes have had greater levels of commitment, and have been more sophisticated in organization. I consider the relationships that exist between power, identity and violence within these hunger strike resistance movements. I contextualize these phenomena within a biopolitical framework that transgresses more traditional definitions of biopolitics; as opposed to conceptualizing biopolitics as a technology of power manifested by the state, I argue that oppressed populations, such as prisoners, construct their own power by regulating their own ‘vital biological processes’.

Biopolitics

Hunger strike

Identity

Prison

Resistance

Scale

L'exercice du droit de grève dans le secteur privé / The right to strike in the private sector

Vervoort, Maxence

26 November 2015

A mi-chemin entre le droit et la pratique, le droit de grève demeure principalement le produit d’une jurisprudence ouverte aux influences extérieures. Loin d’être enfermé dans une morale théorique et immobile, le droit de grève rayonne donc par son dynamisme et sa facilité à répondre aux défis conjoncturels et structurels auxquels doit faire face l’entreprise. Dans ces conditions, comment est juridiquement façonné l’exercice du droit de grève ? Quelles sont les interactions réciproques et permanentes entre la jurisprudence et la pratique, qui confèrent à ce droit toute son effectivité ? Quelles sont les influences, juridiques et a-juridiques, qui viennent guider son exercice au quotidien ? / Half way between the law and common practice , the right to strike is the result of a case law open to external influences. Far from being stuck in a theoritical and fixed ideology, the right to strike lies on dynamic grounds and on its ability to challenge the temporary and structural contexts that a company must cope with. In these conditions, how can the right to strike be legally shaped? What are the mutual permanent interactions between a case law and common practice which confers to this right its total effectiveness ? What are the legal and contextual influences that guides its daily practice ?

Droit de grève

Right to strike

Private sector

Experimental Studies and Finite Element Modeling Of Lightning Damage to Carbon/Epoxy Laminated and Stitched Composites

Lee, Juhyeong

11 August 2017

Lightning damage resistance of unstitched carbon/epoxy laminates and a Pultruded Rod Stitched Efficient Unitized Structure (PRSEUS) panel were characterized by laboratory-scale lightning strike tests and multiphysics-based lightning strike finite element (FE) models. This dissertation combines three related research topics: (1) a three-dimensional (3D) heat transfer problem, (2) lightning damage resistance assessments of carbon/epoxy laminates, and (3) lightning damage resistance of PRSEUS panel. The first project deals with a 3D analytical heat transfer problem as a solid foundation for understanding the steady-state temperature distribution in an anisotropic composite heat spreader. The second project characterizes lightning damage to unprotected carbon/epoxy laminates and laminates with either copper mesh (CM) or pitch carbon fiber paper (PCFP) protection layers subjected to standard impulse current waveforms, consistent with actual lightning waveforms, with 50, 125, and 200 kA nominal peak currents. Multiphysics-based FE models were developed to predict matrix thermal decomposition (a primary form of lightning damage) in unprotected, CM-protected, and PCFP-protected carbon/epoxy laminates. The predicted matrix decomposition domains in the damaged laminates showed good agreement with experimental results available in the literature. Both the CM and the PCFP lightning protection layers successfully mitigated lightning damage development in the underlying composites. The third project includes lightning damage characterization of a PRSEUS panel. Laboratory-scale lightning strike tests with nominal 50, 125, and 200 kA peak currents were performed at the mid-bay, stringer, frame, and frame/stringer intersection locations of the PRSEUS panel. The elliptical regions of intense local damage were elongated along the outermost lamina’s carbon fiber direction, consistent with observations from the unstitched carbon/epoxy laminates. However, the damaged PRSEUS panel exhibited unique damage features due to use of warp-knitted fabrics and through-thickness VectranTM stitches. The polyester threads used to weave the warp-knitted laminates locally confined small-scale fiber damage. This resulted in somewhat periodic and scattered small tufts of carbon fibers near the lightning attachments. Through-thickness VectranTM stitches also confined intense local damage development at the stringer and frame locations. The polyester warp-knit fabric skins and through-thickness VectranTMstitches have a significant beneficial effect on lightning damage development on a PRSEUS panel.

multiphysics model

lightning strike damage

carbon composites

Automated Foot Strike Identification and Fall Risk Classification for People with Lower Limb Amputations Using Smartphone Sensor Signals from 2 and 6-Minute Walk Tests

Juneau, Pascale

06 July 2022

Artificial intelligence (AI) algorithms for gait analysis rely on properly identified foot strikes for step-based feature calculation. Smartphone signals collected during movement assessments, such as the 6-minute walk test (6MWT), have been used to train AI models for foot strike identification and fall risk classification in able-bodied populations. However, there is limited research in populations with more asymmetrical gait. People with lower limb amputation can have high gait variability, adversely affecting automatic step detection algorithms. Hence, fall risk models for lower limb amputees have relied on manual foot strike labelling to calculate step-based features for model training, which is inefficient and impractical for clinical use. In this thesis, decision tree and long-short term memory (LSTM) models were developed, optimized, and their performance compared for automated foot strike identification in an amputee population. Eighty people with lower limb amputations (27 fallers, 53 non-fallers) completed a 6MWT with a smartphone at the posterior pelvis. Automated and manually labelled foot strikes from the full 6MWT and from the first two minutes of data were used to calculate step-based features. A random forest model was used to classify fall risk. The best foot strike identification model was an LSTM with 100 hidden nodes in the LSTM layer, 50 hidden nodes in the dense layer, and batch size of 64 (99.0% accuracy, 86.4% sensitivity, 99.4% specificity, 82.7% precision). Automated foot strikes from the full 6MWT data correctly classified more fallers (55.6% versus 48.1%), whereas automated foot strikes from 2-minute data classified more non-fallers (90.6% versus 81.1%). Feature calculation using manually labelled foot strikes resulted in the best overall performance (80.0% accuracy, 55.6% sensitivity, 92.5% specificity). This research created a novel method for automated foot strike identification in lower limb amputees that is equivalent to manual labelling and demonstrated that automated foot strikes can be used to calculate step-based features for fall risk classification. Integration of the foot strike identification model into a smartphone application could allow for immediate stride analysis after completing a 6MWT; however, fall risk classification model improvement is recommended to enhance clinical viability.

amputee

6MWT

foot strike detection

smartphone

Changes in foot and shank coupling due to alterations in foot strike pattern during running

Pohl, M.B., Buckley, John

19 November 2007

No / The purpose of this article is determining if and how the kinematic relationship between adjacent body segments changes when an individual’s gait pattern is experimentally manipulated can yield insight into the robustness of the kinematic coupling across the associated joint(s). The aim of this study was to assess the effects on the kinematic coupling between the forefoot, rearfoot and shank during ground contact of running with alteration in foot strike pattern. Twelve subjects ran over-ground using three different foot strike patterns (heel strike, forefoot strike, toe running). Kinematic data were collected of the forefoot, rearfoot and shank, which were modelled as rigid segments. Coupling at the ankle-complex and midfoot joints was assessed using cross-correlation and vector coding techniques. In general good coupling was found between rearfoot frontal plane motion and transverse plane shank rotation regardless of foot strike pattern. Forefoot motion was also strongly coupled with rearfoot frontal plane motion. Subtle differences were noted in the amount of rearfoot eversion transferred into shank internal rotation in the first 10–15% of stance during heel strike running compared to forefoot and toe running, and this was accompanied by small alterations in forefoot kinematics. These findings indicate that during ground contact in running there is strong coupling between the rearfoot and shank via the action of the joints in the ankle-complex. In addition, there was good coupling of both sagittal and transverse plane forefoot with rearfoot frontal plane motion via the action of the midfoot joints.

Forefoot

Rearfoot

Kinematic coupling

Foot strike pattern