Robust Deliberative Democracy

Deliberative democracy aspires to secure political liberty by making citizens the authors of their laws. But how can it do this in the face of deep disagreement, not to mention imperfect knowledge and limited altruism? Deliberative democracy can secure political liberty by affording each citizen an equal position as a co-author of public laws and norms. Moreover, fundamental deliberative democracy—in which institutional design is ultimately accountable to public deliberation but not necessarily subject to its direct control—does not strain knowledge or altruism. Thus, there is a place for deliberative democracy in a robust political economy

Boyle’s Reductive Occasionalism

Was Robert Boyle an occasionalist? And if so, what kind of occasionalist was he? These questions have long troubled commentators, as Boyle’s texts often seem to offer both endorsements of occasionalism and affirmations of bodies’ causal powers. I argue that Boyle’s position is best understood as reductive occasionalism, according to which bodily powers are relations between bodies and God’s action in the world, and there is no causal efficacy in bodies that is not strictly identical to God’s nomological causal efficacy

Lightweight load support serves as vibration damper

Omnidirectional antennas and solar panels can be supported by a thin-walled tubular strut. Silicon grease is used as the vibration-damping medium and a coil spring supports static loads

Modern Logic and Judicial Decision Making: A Sketch of One View

Two hundred years elapsed before the nineteenth century logicians Boole, De Morgan, and others, finally succeeded in formally developing the calculus of reason-ing first suggested by the German mathematician, Leibniz. It is, perhaps, to the credit of the legal profession that less than one century has subsequently elapsed, and already some lawyers and legal writers, along with other scholars, are beginning to explore the relationship between modern logic and law. What is attempted here is to outline the bare bones of one tentative way of looking at the relationship between modern logic and the judicial decision process. From the useful vantage point of a Lasswellian social process framework of analysis, logic and judicial decision making are considered contextually within that total mani-fold of events that we call the world. Thus viewed, the judicial decision making process is just one constituent of the complex unfolding of events through time. We attempt to represent some of the complexities involved in each of these processes and the relationships between them by means of a series of diagrams. By suggesting that we begin with the world as our context, we make no claim to describing it in complete detail. To the contrary, the sketch presented here-we would emphasize the word sketch and the word tentative -is rough, incomplete, and subject to considerable improvement. But one of our purposes will be served if the outline points the way toward cumulative efforts to achieve a comprehensive description of the judicial decision process. In addition to this broad look at logic, judicial decision making, and the world, a more modest aim is to describe, in some detail and with reasonable clarity, one aspect of the relation between logic and judicial decision making

CRRES: Combined Release and Radiation Effects Satellite Program Summary

The experiments that comprise the Combined Release and Radiation Effects Satellite Program (CRRES) (Apr. 1990 - Jul. 1992) are presented. The experiments are as follows: PEGSAT; El Coqui; the Kwajalein Campaign; and experiments G1 - G14

Neutron monitoring and electrode calorimetry experiments in the HIP-1 Hot Ion Plasma

Results are presented for two diagnostic procedures on HIP-1: neutron diagnostics to determine where neutrons originated within the plasma discharge chamber and electrode calorimetry to measure the steady-state power absorbed by the two anodes and cathodes. Results are also reported for a hot-ion plasma formed with a continuous-cathode rod, one that spans the full length of the test section, in place of the two hollow cathodes. The outboard neutron source strength increased relative to that at the midplane when (1) the cathode tips were moved farther outboard, (2) the anode diameters were increased, and (3) one of the anodes was removed. The distribution of neutron sources within the plasma discharge chamber was insensitive to the division of current between the two cathodes. For the continuous cathode, increasing the discharge current increased the midplane neutron source strength relative to the outboard source strength. Each cathode absorbed from 12 to 15 percent of the input power regardless of the division of current between the cathodes. The anodes absorbed from 20 to 40 percent of the input power. The division of power absorption between the anodes varied with plasma operating conditions and electrode placement

CRRES: The combined release and radiation effects satellite program directory

As a result of natural processes, plasma clouds are often injected into the magnetosphere. These chemical releases can be used to study many aspects of such injections. When a dense plasma is injected into the inner magnetosphere, it is expected to take up the motion of the ambient plasma. However, it has been observed in previous releases at moderate altitudes that the cloud preserved its momentum for some time following the release and that parts of the cloud peeled off from the main cloud presumable due to the action of an instability. As one moves outward into the magnetosphere, the mirror force becomes less dominant and the initial conditions following a release are dominated by the formation of a diamagnetic cavity since the initial plasma pressure from the injected Ba ions is greater than the magnetic field energy density. A previous high-altitude release (31,300 km) showed this to be the case initially, but at later times there was evidence for acceleration of the Ba plasma to velocities corresponding to 60,000 K. This effect is not explained. This series of experiments is therefore designed to inject plasma clouds into the magnetosphere under widely varying conditions of magnetic field strength and ambient plasma density. In this way the coupling of injected clouds to the ambient plasma and magnetic field, the formation of striations due to instabilities, and possible heating and acceleration of the injected Ba plasma can be studied over a wide range of magnetosphere parameters. Adding to the scientific yield will be the availability of measurements for the DOD/SPACERAD instruments which can monitor plasma parameters, electric and magnetic fields, and waves before, during and after the releases

Control/structure interaction design methodology

The Control Structure Interaction Program is a technology development program for spacecraft that exhibit interactions between the control system and structural dynamics. The program objectives include development and verification of new design concepts (such as active structure) and new tools (such as a combined structure and control optimization algorithm) and their verification in ground and possibly flight test. The new CSI design methodology is centered around interdisciplinary engineers using new tools that closely integrate structures and controls. Verification is an important CSI theme and analysts will be closely integrated to the CSI Test Bed laboratory. Components, concepts, tools and algorithms will be developed and tested in the lab and in future Shuttle-based flight experiments. The design methodology is summarized in block diagrams depicting the evolution of a spacecraft design and descriptions of analytical capabilities used in the process. The multiyear JPL CSI implementation plan is described along with the essentials of several new tools. A distributed network of computation servers and workstations was designed that will provide a state-of-the-art development base for the CSI technologies

Are Delayed Issues Harder to Resolve? Revisiting Cost-to-Fix of Defects throughout the Lifecycle

Many practitioners and academics believe in a delayed issue effect (DIE); i.e. the longer an issue lingers in the system, the more effort it requires to resolve. This belief is often used to justify major investments in new development processes that promise to retire more issues sooner. This paper tests for the delayed issue effect in 171 software projects conducted around the world in the period from 2006--2014. To the best of our knowledge, this is the largest study yet published on this effect. We found no evidence for the delayed issue effect; i.e. the effort to resolve issues in a later phase was not consistently or substantially greater than when issues were resolved soon after their introduction. This paper documents the above study and explores reasons for this mismatch between this common rule of thumb and empirical data. In summary, DIE is not some constant across all projects. Rather, DIE might be an historical relic that occurs intermittently only in certain kinds of projects. This is a significant result since it predicts that new development processes that promise to faster retire more issues will not have a guaranteed return on investment (depending on the context where applied), and that a long-held truth in software engineering should not be considered a global truism.Comment: 31 pages. Accepted with minor revisions to Journal of Empirical Software Engineering. Keywords: software economics, phase delay, cost to fi

Maximum zero strings of Bell numbers modulo primes

AbstractFor any prime p, the sequence of Bell exponential numbers Bn is shown to have p − 1 consecutive values congruent to zero (mod p), beginning with Bm, where m ≡ 1 − (pp − 1)(p − 1)2 (mod(pp − 1)(p − 1)). This is an improvement over previous results on the maximal strings of zero residues of the Bell numbers. Similar results are obtained for the sequence of generalized Bell numbers An generated by e−(ex − 1) = Σn = 0∞ Anxnn!