2,131 research outputs found
The Public and Public Education
This Cousins Research Group report includes two articles by Kettering Foundation president David Mathews that were published previously. "The Public for Public Schools Is Slipping" was first published in Education Week in 1995. The second piece, "Putting the Public Back into Public Education: An Old-Fashioned Remedy for a Troubled Relationship," appeared in the Summer 2015 issue of the National Civic Review. Both pieces look at the growing disconnect between the schools and the public they serve. They suggest that the usual institutional responses to repair the troubled relationship (e.g., standardized tests or better public relations) have failed to remedy the problem. The key to bridging the divide between the schools and the public may actually be found on the citizens' side. Mathews observes, "Citizens themselves and their organizations have to be actors who bring educational resources in the community to complement what the schools do.
Ships Passing In The Night?
In this Cousins Research Group Report, David Mathews describes two different civic engagement movements. One is underway in higher education. On campuses across the country, leadership and service learning programs are growing, and students are taught civic skills, including civil dialogue. In addition, university partnerships with nearby communities offer technical assistance, professional advice, and access to institutional resources. The other is occurring off campus, in communities that are trying to cope with natural disasters, economic change, and other problems that threaten everyone's well-being. In these places, citizens say they want to come together as communities to maintain their communities. Unfortunately, they often have difficulty finding institutions that understand their agenda.Why are these two civic movements in danger of passing like the proverbial ships in the night? Mathews explores this disconnect, noting, "It would seem that two civic engagement movements, occurring at the same time and often in the same locations, would be closely allied -- perhaps mutually reinforcing. That doesn't seem to be happening very often." He goes on to suggest how these efforts might become mutually supportive
With the People: An Introduction to an Idea
In 1863, President Abraham Lincoln delivered his Gettysburg Address, and he spoke of an ideal of government, one that is of, by, and for the people. Do Americans today think our government is really "of" the people? That's debatable. "By" the people? Doubtful. "For" the people? Perhaps for some, sometimes.This Cousins Research Group Report, based on a forthcoming book by David Mathews, suggests trying another preposition—government with the people. It offers a strategy for bridging some of the divide separating the people of the United States from their government and from the country's major institutions. It envisions a form of collaboration that would have institutions working with citizens, not just for them. Such a "with strategy" sees people as creators and producers rather than consumers or clients. It encourages collaboration through mutually reinforcing efforts between the citizenry and the government, and that could have a cumulative effect on the troubles that our democracy faces
High Performance Data Acquisition and Analysis Routines for the Nab Experiment
Probes of the Standard Model of particle physics are pushing further and further into the so-called “precision frontier”. In order to reach the precision goals of these experiments, a combination of elegant experimental design and robust data acquisition and analysis is required. Two experiments that embody this philosophy are the Nab and Calcium-45 experiments. These experiments are probing the understanding of the weak interaction by examining the beta decay of the free neutron and Calcium-45 respectively. They both aim to measure correlation parameters in the neutron beta decay alphabet, a and b. The parameter a, the electron-neutrino correlation coefficient, is sensitive to λ, the ratio of the axial-vector and vector coupling strengths in the decay of the free neutron. This parameter λ, in tandem with a precision measurement of the neutron lifetime τ , provides a measurement of the matrix element Vud from the CKM quark mixing matrix. The CKM matrix, as a rotation matrix, must be unitary. Probes of Vud and Vus in recent years have revealed tension in this unitarity at the 2.2σ level. The measurement of a via decay of free cold neutrons serves as an additional method of extraction for Vud that is sensitive to a different set of systematic effects and as such is an excellent probe into the source of the deviation from unitarity. The parameter b, the Fierz interference term, appears as a distortion in the mea- sured electron energy spectra from beta decay. This parameter, if non-zero, would indicate the existence of Scalar and/or Tensor couplings in the Weak interaction which according to the Standard Model is purely Vector minus Axial-Vector. This is therefore a search for physics beyond the standard model, BSM, physics search. The Nab and Calcium-45 experiments probe these parameters with a combination of elegant experimental design and brute force collection and analysis of large amounts of digitized detector data. These datasets, particularly in the case of the Nab experiment, are anticipated to span multiple petabytes of data and will require high performance online analysis and precision offline analysis routines in order to reach the experimental goals. Of particular note are the requirements for better than 3 keV energy resolution and an understanding of the uncertainty in the mean timing bias for the detected particles within 300 ps. Presented in this dissertation is an overview of the experiments and their design, a description of the data acquisition systems and analysis routines that have been developed to support the experiments, and a discussion of the data analysis performed for the Calcium-45 experiment
X-ray Isophotes in a Rapidly Rotating Elliptical Galaxy: Evidence of Inflowing Gas
We describe two-dimensional gasdynamical computations of the X-ray emitting
gas in the rotating elliptical galaxy NGC 4649 that indicate an inflow of about
one solar mass per year at every radius. Such a large instantaneous inflow
cannot have persisted over a Hubble time. The central constant-entropy
temperature peak recently observed in the innermost 150 parsecs is explained by
compressive heating as gas flows toward the central massive black hole. Since
the cooling time of this gas is only a few million years, NGC 4649 provides the
most acutely concentrated known example of the cooling flow problem in which
the time-integrated apparent mass that has flowed into the galactic core
exceeds the total mass observed there. This paradox can be resolved by
intermittent outflows of energy or mass driven by accretion energy released
near the black hole. Inflowing gas is also required at intermediate kpc radii
to explain the ellipticity of X-ray isophotes due to spin-up by mass ejected by
stars that rotate with the galaxy and to explain local density and temperature
profiles. We provide evidence that many luminous elliptical galaxies undergo
similar inflow spin-up. A small turbulent viscosity is required in NGC 4649 to
avoid forming large X-ray luminous disks that are not observed, but the
turbulent pressure is small and does not interfere with mass determinations
that assume hydrostatic equilibrium.Comment: 21 pages, 9 figures, accepted for publication by Ap
Optimisation and Decision Support during the Conceptual Stage of Building Design
Merged with duplicate record 10026.1/726 on 28.02.2017 by CS (TIS)Modern building design is complex and involves many different disciplines operating in a
fragmented manner. Appropriate computer-based decision support (DS) tools are sought
that can raise the level of integration of different activities at the conceptual stage, in order
to help create better designs solutions. This project investigates opportunities that exist for
using techniques based upon the Genetic Algorithm (GA) to support critical activities of
conceptual building design (CBD). Collective independent studies have shown that the
GA is a powerful optimisation and exploratory search technique with widespread
application. The GA is essentially very simple yet it offers robustness and domain
independence. The GA efficiently searches a domain to exploit highly suitable
information. It maintains multiple solutions to problems simultaneously and is well suited
to non-linear problems and those of a discontinuous nature found in engineering design.
The literature search first examines traditional approaches to supporting conceptual design.
Existing GA techniques and applications are discussed which include pioneering studies in
the field of detailed structural design. Broader GA studies are also reported which have
demonstrated possibilities for investigating geometrical, topological and member size
variation. The tasks and goals of conceptual design are studied. A rationale is introduced,
aimed at enabling the GA to be applied in a manner that provides the most effective
support to the designer. Numerical experiments with floor planning are presented. These
studies provide a basic foundation for a subsequent design support system (DSS) capable
of generating structural design concepts.
A hierarchical Structured GA (SGA) created by Dasgupta et al [1] is investigated to
support the generation of diverse structural design concepts. The SGA supports variation
in the size, shape and structural configuration of a building and in the choice of structural
frame type and floor system. The benefits and limitations of the SGA approach are
discussed. The creation of a prototype DSS system, abritrarily called Designer-Pro
(DPRO), is described. A detailed building design model is introduced which is required
for design development and appraisal. Simplifications, design rationale and generic
component modelling are mentioned. A cost-based single criteria optimisation problem
(SCOP) is created in which other constraints are represented as design parameters.
The thesis describes the importance of the object-oriented programming (OOP) paradigm
for creating a versatile design model and the need for complementary graphical user
interface (GUI) tools to provide human-computer interaction (HCI) capabilities for control
and intelligent design manipulation. Techniques that increase flexibility in the generation
and appraisal of concept are presented. Tools presented include a convergence plot of
design solutions that supports cursor-interrogation to reveal the details of individual
concepts. The graph permits study of design progression, or evolution of optimum design
solutions. A visualisation tool is also presented.
The DPRO system supports multiple operating modes, including single-design appraisal
and enumerative search (ES). Case study examples are provided which demonstrate the
applicability of the DPRO system to a range of different design scenarios. The DPRO
system performs well in all tests. A parametric study demonstrates the potential of the
system for DS. Limitations of the current approach and opportunities to broaden the study
form part of the scope for further work. Some suggestions for further study are made,
based upon newly-emerging techniques
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