The Death of Fair Use in Cyberspace: YouTube and the Problem With Content ID

YouTube has grown exponentially over the past several years. With that growth came unprecedented levels of copyright infringement by uploaders on the site, forcing YouTube’s parent company, Google Inc., to introduce a new technology known as Content ID. This tool allows YouTube to automatically scan and identify potential cases of copyright infringement on an unparalleled scale. However, Content ID is overbroad in its identification of copyright infringement, often singling out legitimate uses of content. Every potential case of copyright infringement identified by Content ID triggers an automatic copyright claim on behalf of the copyright holder on YouTube and subsequently freezes all revenue streams, for all parties, regardless of the legitimacy of the underlying claim. Using the plight of one video game reviewer known as “Angry Joe” as a paradigmatic example of the problems that Content ID can create, this Issue Brief argues that in its present form, Content ID has had disastrous consequences for the doctrine of fair use, YouTube itself, and ultimately, the very spirit of copyright law. By shifting the neutral presumption accompanied with fair use against the uploader, Content ID effectively overrides judicial precedent

The effects of selenium and vitamin E deficiency and subsequent selenium supplementation on immune response in chicks

This experiment was conducted in an effort to track the healing process in chicks resupplemented with selenium following a combined selenium and vitamin E deficiency. Chicks were fed a low selenium diet with no added vitamin E or synthetic antioxidant. A control group was fed the same diet with 0.1 mg selenite selenium added per kilogram. Selenium-deficient chicks first displayed visible symptoms of exudative diathesis at 10 days of age. Trios of birds were matched for severity. Two birds were treated with an injection of 0.15 ?g selenite selenium in 1 mL distilled water. The remaining bird was given an injection of l mL distilled water. The process was repeated for the five remaining trios of chicks. Immune responses were observed among each group. In selenium-deficient chicks, leukocyte counts more than doubled. Heterophil counts for this group were also increased. Upon reconstitution of selenium, leukocyte heterophil, monocyte, and basophil counts approached normal values. Eosinophils, however, increased in number in the selenium corrected-group. The selenium-deficient birds displayed evidence of cellular damage, as indicated by the results of the blood chemistries. An increase in immature erythroid cellular elements resulted in a myeloid: erythroid (M:E) ratio of 0.45. The deficient group had the highest heterophil and lowest lymphocyte counts. Necrosis in the pectoral muscle and varying degrees of pancreatic fibrosis were also observed. In birds resupplemented with selenium, fibrosis was extensive, and necrosis was uncommon. The (M:E) ratio was 1, as was the case with the selenium-adequate birds. Leukocyte and heterophil counts in selenium-corrected birds were similar to those observed in the selenium-adequate birds. However, the selenium-corrected birds had the lowest body weights over a 27-day period. Resupplementation of selenium in the diet decreased the severity of exudative diathesis, myocyte necrosis and began to restore immunocompetence in chicks. Immunological criteria in selenium-adequate birds was normal

Atmosphere Behavior in Gas-Closed Mouse-Algal Systems: An Experimental and Modelling Study

A dual approach of mathematical modelling and laboratory experimentation aimed at examining the gas exchange characteristics of artificial animal/plant systems closed to the ambient atmosphere was initiated. The development of control techniques and management strategies for maintaining the atmospheric levels of carbon dioxide and oxygen at physiological levels is examined. A mathematical model simulating the atmospheric behavior in these systems was developed and an experimental gas closed system was constructed. These systems are described and preliminary results are presented

Imide and isatin derivatives as β-lactam mimics of β-lactam antibiotics

Activated γ-lactams, which are derivatives of succinimide, phthalimide and isatin with suitable elements of molecular recognition, have been synthesised as mimics of the ß-lactam antibiotics and their chemical and biological reactivity determined

Secondary metabolite profiling of the model legume Lotus japonicus during its symbiotic interaction with Mesorhizobium loti

Plant secondary metabolites, particularly flavonoids, are key components in the early stages of nitrogen-fixing symbiosis. Despite their importance, the endogenous secondary metabolites involved in symbiosis have not yet been identified in the model legume Lotus japonicus. We therefore determined changes in the secondary metabolic profile of Lotus japonicus roots in response to its symbiont. Analysis of the root secondary metabolite profiles 1 week after inoculation with Mesorhizobium loti revealed quantitative changes in the level of 14 phenolic peaks when compared with non-inoculated control plants. These changes affected compounds from most phenolic classes, possibly resulting from interconversion between classes since the total phenolic level remained constant. In addition, the use of 2 M. loti strains differing only in their capacity to synthesise Nod factor revealed that, although Nod factor signalling induced accumulation of a specific subset of 4 phenolic peaks, most changes were induced in response to both rhizobial strains.NR was supported by a Training Network funded by the European Training Network EU-RTN-LOTUS-HPRN-CT-2000-00086. KJW was supported by core funding from the Biotechnology and Biological Science Research Council (BBSRC), UK.Peer Reviewe

Fragmentation and systematics of the Pygmy Dipole Resonance in the stable N=82 isotones

The low-lying electric dipole (E1) strength in the semi-magic nucleus 136Xe has been measured which finalizes the systematic survey to investigate the so-called pygmy dipole resonance (PDR) in all stable even N=82 isotones with the method of nuclear resonance fluorescence using real photons in the entrance channel. In all cases, a fragmented resonance-like structure of E1 strength is observed in the energy region 5 MeV to 8 MeV. An analysis of the fragmentation of the strength reveals that the degree of fragmentation decreases towards the proton-deficient isotones while the total integrated strength increases indicating a dependence of the total strength on the neutron-to-proton ratio. The experimental results are compared to microscopic calculations within the quasi-particle phonon model (QPM). The calculation includes complex configurations of up to three phonons and is able to reproduce also the fragmentation of the E1 strength which allows to draw conclusions on the damping of the PDR. Calculations and experimental data are in good agreement in the degree of fragmentation and also in the integrated strength if the sensitivity limit of the experiments is taken into account

Critical Behavior of the Meissner Transition in the Lattice London Superconductor

We carry out Monte Carlo simulations of the three dimensional (3D) lattice London superconductor in zero applied magnetic field, making a detailed finite size scaling analysis of the Meissner transition. We find that the magnetic penetration length \lambda, and the correlation length \xi, scale as \lambda ~ \xi ~ |t|^{-\nu}, with \nu = 0.66 \pm 0.03, consistent with ordinary 3D XY universality, \nu_XY ~ 2/3. Our results confirm the anomalous scaling dimension of magnetic field correlations at T_c.Comment: 4 pages, 5 ps figure

Critical fluctuations in superconductors and the magnetic field penetration depth

The superconducting transition is studied within the one-loop renormalization group in fixed dimension $D=3$ and at the critical point. A tricritical behavior is found, and for $\kappa > \kappa_c$, an attractive charged fixed point, distinct from that of a neutral superfluid. The critical exponents of the continuous transition are evaluated, and it is shown that the anomalous dimension of the gauge field equals unity. This implies the proportionality of the magnetic field penetration depth and the superconducting correlation length below the transition. The penetration depth exponent is nonclassical. We argue that it can not be extracted from the dual theory in a straightforward manner since it is not renormalized by fluctuations of the dual field.Comment: 12 pages, LaTex, two figures available upon reques

Evolution of level density step structures from 56,57-Fe to 96,97-Mo

Level densities have been extracted from primary gamma spectra for 56,57-Fe and 96,97-Mo nuclei using (3-He,alpha gamma) and (3-He,3-He') reactions on 57-Fe and 97-Mo targets. The level density curves reveal step structures above the pairing gap due to the breaking of nucleon Cooper pairs. The location of the step structures in energy and their shapes arise from the interplay between single-particle energies and seniority-conserving and seniority-non-conserving interactions.Comment: 9 pages, including 5 figure

Two-Loop Effective Potential of O(N)-Symmetric Scalar QED in 4-epsilon Dimensions

The effective potential of scalar QED is computed analytically up to two loops in the Landau gauge. The result is given in 4-epsilon dimensions using minimal subtraction and epsilon-expansions. In three dimensions, our calculation is intended to help throw light on unsolved problems of the superconducting phase transition, where critical exponents and the position of the tricritical point have not yet found a satisfactory explanation within the renormalization group approach.Comment: Author Information under http://www.physik.fu-berlin.de/~kleinert/institution.html . Latest update of paper (including all PS fonts) at http://www.physik.fu-berlin.de/~kleinert/32