Spacecraft Redundancy and Environmental Tests: An Historic Evaluation

The necessity of providing highly redundant spacecraft in the shuttle era was evaluated. Environmental and acceptance tests were done. Histories of 67 spacecraft over a 12 year period were analyzed. The final result of this study is that LMSC (Lockheed Missiles and Space Co., Inc.) is convinced of the significant value of redundancy in spacecraft and systems environmental testing and such techniques should be carried forward into the shuttle era

United We Stand, Divided We Fall? An Inquiry into the Values and Shortcomings of Uniform Methodology for Statutory Interpretation

How should courts interpret statutes? This question has fueled generations of debate. Some believe generally that legislative intent should be understood based on the greater purpose of the statute; others believe that would be “pure applesauce” and the legislative intent should be understood through the plain meaning of the statute as written. Where one lands on that spectrum dictates the acceptable use of various tools for statutory interpretation, from legislative history to dictionaries. But, this is largely a theoretical exercise because statutory interpretation is messy in practice. The judiciary employs a variety of methodologies across cases, courts, time periods, and even within cases themselves. Judges may align with a methodology in theory but depart from that methodology in everyday practice. As such, the scholarship regarding statutory interpretation does not fully illustrate the way that statutory interpretation actually takes place, especially in the lower courts. Given that “American courts have no intelligible, generally accepted, and consistently applied theory of statutory interpretation,” many have called for a uniform, singular methodology: “Our legal system must regain a mooring that it has lost: a generally agreed-on approach to the interpretation of legal texts.” Advocates argue that a uniform methodology would provide much-needed consistency in the field of statutory interpretation. It may promote separation of powers principles, inform the legislative approach to drafting, and enhance the rule of law by reinforcing objectivity. But, consideration of a singular methodology begs the question: Is there some value in the chaos? The more fundamental question in statutory interpretation may be whether there are greater benefits to a plurality of opinions and judicial eclectism. This Essay will consider the disconnect between theory and reality in the realm of judicial decisionmaking and statutory interpretation, explore solutions to close this gap, and reflect on whether those solutions are viable or desirable. Part I will explain the disconnect and examine the role of the federal judiciary today as it relates to a goal of uniformity. Namely, it will highlight differences in the approaches the Supreme Court and the courts of appeals take to using dictionaries, legislative history, and canons of interpretation. Part II will explain why a singular methodology may be a desirable goal. Part III will evaluate the following theories to unify and provide consistency to statutory interpretation: Federal Rules of Statutory Interpretation, Restatement of Statutory Interpretation, and judicial stare decisis. Part IV will explore the less studied topic of whether a unitary approach to statutory interpretation is possible or desirable, ultimately determining that the plurality of opinions and methods on the courts should be embraced

A pre-design sensitivity analysis tool for consideration of full electrical aircraft propulsion electrical power system architectures

Turbo-electric distributed power (TeDP) systems proposed for hybrid wing body (HWB) N3-X aircraft are complex, superconducting electrical networks, which must be developed to meet challenging weight, efficiency and propulsor power requirements. An integrated system sensitivity analysis tool is presented, which can be used to support rapid appraisal studies of architectures, protection systems and redundancy requirements for TeDP systems. The use of this tool can help direct future research on TeDP systems towards the key challenges relevant to meeting the stringent weight and efficiency targets set out for N+3 aircraft concepts

Protection system considerations for DC distributed electrical propulsion systems

Distributed electrical propulsion for aircraft, also known as turbo-electric distributed propulsion (TeDP), will require a complex electrical power system which can deliver power to multiple propulsor motors from gas turbine driven generators. To ensure that high enough power densities are reached, it has been proposed that such power systems are superconducting. Key to the development of these systems is the understanding of how faults propagate in the network, which enables possible protection strategies to be considered and following that, the development of an appropriate protection strategy to enable a robust electrical power system with fault ride-through capability. This paper investigates possible DC protection strategies for a radial DC architecture for a TeDP power system, in terms of their ability to respond appropriately to a DC fault and their impact on overall system weight and efficiency. This latter aspect has already been shown to be critical to shaping the overall TeDP concept competitiveness

Pollen-Mediated Gene Flow from Genetically Modified Herbicide Resistant Creeping Bentgrass

Approximately 162 ha of multiple experimental fields of creeping bentgrass (Agrostis stolonifera L.) genetically modified for resistance to Roundup ®herbicide, were planted in central Oregon in 2002. When the fields flowered for the first time in the summer of 2003, a unique opportunity was presented to evaluate methods to monitor potential pollen-mediated gene flow from the experimental GM crop fields to compatible sentinel and resident plants that were located in surrounding, primarily non-agronomic areas

Metastable Frenkel pair defect in graphite: source of Wigner energy?

The atomic processes associated with energy storage and release in irradiated graphite have long been subject to untested speculation. We examine structures and recombination routes for interstitial-vacancy (I-V) pairs in graphite. Interaction results in the formation of a new metastable defect (an intimate I-V pair) or a Stone-Wales defect. The intimate I-V pair, although 2.9 eV more stable than its isolated constituents, still has a formation energy of 10.8 eV. The barrier to recombination to perfect graphite is calculated to be 1.3 eV, consistent with the experimental first Wigner energy release peak at 1.38 eV. We expect similar defects to form in carbon nanostructures such as nanotubes, nested fullerenes, and onions under irradiation

TREM2 activation on microglia promotes myelin debris clearance and remyelination in a model of multiple sclerosis

Multiple sclerosis (MS) is an inflammatory, demyelinating, and neurodegenerative disease of the central nervous system (CNS) triggered by autoimmune mechanisms. Microglia are critical for the clearance of myelin debris in areas of demyelination, a key step to allow remyelination. TREM2 is expressed by microglia and promotes microglial survival, proliferation, and phagocytic activity. Herein we demonstrate that TREM2 was highly expressed on myelin-laden phagocytes in active demyelinating lesions in the CNS of subjects with MS. In gene expression studies, macrophages from subjects with TREM2 genetic deficiency displayed a defect in phagocytic pathways. Treatment with a new TREM2 agonistic antibody promoted the clearance of myelin debris in the cuprizone model of CNS demyelination. Effects included enhancement of myelin uptake and degradation, resulting in accelerated myelin debris removal by microglia. Most importantly, antibody-dependent TREM2 activation on microglia increased density of oligodendrocyte precursors in areas of demyelination, as well as the formation of mature oligodendrocytes thus enhancing remyelination and axonal integrity. These results are relevant as they propose TREM2 on microglia as a potential new target to promote remyelination

Effect of partial portal vein ligation on hepatic regeneration

To evaluate the effect of portal hypertension and diminished portal venous blood flow to the liver on hepatic regeneration, male rats were subjected to partial portal vein ligation and subsequently to a two-thirds partial hepatectomy. The levels of ornithine decarboxylase activity at 6 h after partial hepatectomy were greater (p > 0.001) in the rats with prior partial portal vein ligation than in those without portal hypertension. The rats with prior partial portal vein ligation also had greater (p > 0.005) levels of thymidine kinase activity at 48 h after partial hepatectomy than did those without portal hypertension. Hepatic sex hormone receptor activity was not affected by prior partial portal vein ligation either before or after partial hepatectomy. The reductions in both estrogen and androgen receptor activity observed in the hepatic cytosol after partial hepatectomy were similar to those observed in control animals. These data indicate that animals with portal hypertension having a diminished hepatic portal blood flow have a normal capacity to regenerate hepatic mass following a hepatic resection © 1988 Informa UK Ltd All rights reserved: reproduction in whole or part not permitted