Real time structural damage assessment from vibration measurements

Damage identification in civil engineering structures using vibration measurements has become an important area of research. A reliable and cost effective method is required to detect and quantify local damage in the structures. The objective of this new proposed method is to identify structural damage in real time at a more detailed level directly from the vibration measurements. Structural damage is assumed to be associated with a proportional reduction of element stiffness matrix. Dynamics characteristics of the structure are calculated by using Newmark's numerical integration method based on measured acceleration data. The change in the stiffness matrix caused by structural damage is implemented into the equation of motion of the dynamic system. A system of governing equations is derived, where the difference between the vibration data of undamaged and damaged structures can be directly adopted. The changes in the stiffness matrix are represented by the changes in the coefficients associated with element stiffness matrixes. Those coefficients can be used as damage parameters in structural damage detection. Both the location and extent of the damage are then determined based on the inverse calculations of damage parameters of the individual elements. Finally, a numerical example is utilised to demonstrate the effectiveness of the proposed approach for on-line structural damage assessmen

Intranasal Colonization by Streptococcus Pneumoniae Induces Immunological Protection from Pulmonary and Systemic Infection: A Dissertation

Given that Streptococcus pneumoniae can cause life-threatening pulmonary and systemic infection, an apparent paradox is that the bacterium resides, usually harmlessly, in the nasopharynx of many people. Humoral immunity is thought to be the primary defense against serious pneumococcal infection, and we hypothesized that nasopharyngeal colonization of mice results in the generation of an antibody response that provides long-term protection against lung infection. We found that survival of of C57L/6 mice after intranasal inoculation with wild-type serotype 4 strain TIGR4 pneumococci required B cells but not T cells, suggesting that nasopharyngeal colonization elicited a protective humoral immune response. In fact, intranasal inoculation resulted in detectable pneumococcal-specific antibody responses, and protected mice against a subsequent high-dose S. pneumoniae pulmonary challenge. B cells were required for this response, and transfer of immune sera from i.n. colonized mice, or monoclonal antibodies against phosphorylcholine, a common surface antigen of S. pneumoniae, was sufficient to confer protection. IgA, which is thought to participate in mucosal immunity, contributed to but was not absolutely required for protection from pulmonary challenge. Protection induced by i.n. colonization lasted at least ten weeks. Although it was partially dependent on T cells, depletion of CD4+ T cells at the time of challenge did not alter protection, suggesting that T cells did not provide essential help in activation of conventional memory cells. Peritoneal B1b cells and radiation-resistant, long-lived antibody secreting cells have previously been shown to secrete anti-pneumococcal antibodies and mediate protection against systemic infection following immunization with killed bacteria or capsular polysaccharide [1, 2]. We found that peritoneal cells were not sufficient for colonization-induced protection, but sub-lethally irradiated mice largely survived pulmonary challenge. Thus, our results are consistent with the hypothesis that nasopharyngeal colonization, a common occurrence in humans, is capable of eliciting extended protection against invasive pneumococcal disease by generating long-lived antibody-secreting cells

Explaining Myanmar's Regime Transition: The Periphery is Central

In 2010, Myanmar (Burma) held its first elections after 22 years of direct military rule. Few compelling explanations for this regime transition have emerged. This article critiques popular accounts and potential explanations generated by theories of authoritarian ‘regime breakdown’ and ‘regime maintenance’. It returns instead to the classical literature on military intervention and withdrawal. Military regimes, when not terminated by internal factionalism or external unrest, typically liberalise once they feel they have sufficiently addressed the crises that prompted their seizure of power. This was the case in Myanmar. The military intervened for fear that political unrest and ethnic-minority separatist insurgencies would destroy Myanmar’s always-fragile territorial integrity and sovereignty. Far from suddenly liberalising in 2010, the regime sought to create a ‘disciplined democracy’ to safeguard its preferred social and political order twice before, but was thwarted by societal opposition. Its success in 2010 stemmed from a strategy of coercive state-building and economic incorporation via ‘ceasefire capitalism’, which weakened and co-opted much of the opposition. Having altered the balance of forces in its favour, the regime felt sufficiently confident to impose its preferred settlement. However, the transition neither reflected total ‘victory’ for the military nor secured a genuine or lasting peace

The Nystrom plus Correction Method for Solving Bound State Equations in Momentum Space

A new method is presented for solving the momentum-space Schrodinger equation with a linear potential. The Lande-subtracted momentum space integral equation can be transformed into a matrix equation by the Nystrom method. The method produces only approximate eigenvalues in the cases of singular potentials such as the linear potential. The eigenvalues generated by the Nystrom method can be improved by calculating the numerical errors and adding the appropriate corrections. The end results are more accurate eigenvalues than those generated by the basis function method. The method is also shown to work for a relativistic equation such as the Thompson equation.Comment: Revtex, 21 pages, 4 tables, to be published in Physical Review

Integrated crop management for cassava cultivation in Asia

The demand for cassava in Asia is expected to grow in the years to come, largely because of an increasing demand for animal feed, biofuels and multiple uses of starch. Increasing the quantity and quality of cassava products in response to growing demand requires careful and sustainable increases in cassava production. This chapter describes good agricultural practices (GAP) in cassava cultivation, focusing on pre- and post-harvesting practices and measures to manage crop health, including ensuring soil fertility and weed, disease and pest control. The chapter addresses the challenge of encouraging farmers to adopt GAP and reviews likely future trends in this area

Analytic Confinement and Regge Trajectories

A simple relativistic quantum field model with the Yukawa-type interaction is considered to demonstrate that the analytic confinement of the constituent ("quarks") and carrier ("gluons") particles explains qualitatively the basic dynamical properties of the spectrum of mesons considered as two-particle stable bound states of quarks and gluons: the quarks and gluons are confined, the glueballs represent bound states of massless gluons, the masses of mesons are larger than the sum of the constituent quark masses and the Regge trajectories of mesonic orbital excitations are almost linear.Comment: RevTeX, 16 pages, 3 figures and 2 table