1,556 research outputs found

    Performance Assessment of WhatsApp and IMO on Android Operating System (Lollipop and KitKat) during VoIP Calls using 3G or WiFi

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    This paper assesses the performance of mobile messaging and VoIP connections. We compared the CPU requirements of WhatsApp and IMO under different scenarios. This analysis also enabled a comparison of the performance of these applications on two Android operating system (OS) versions: KitKat or Lollipop. Two models of smartphones were considered, viz. Galaxy Note 4 and Galaxy S4. The applications behavior was statistically investigated for both sending and receiving VoIP calls. Connections have been examined over 3G and WiFi. The handset model plays a decisive role in CPU requirements of the application. t-tests shown that IMO has a statistical better performance that WhatsApp whatever be the Android at a significance level 1%, on Galaxy Note 4. In contrast, WhatsApp requires less CPU than IMO on Galaxy S4 whatever be the OS and access (3G/WiFi). Galaxy Note 4 using WiFi has always better performance than S4 in terms of processing

    Dual role of benzophenone enables a fast and scalable C-4 selective alkylation of pyridines in flow

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    The efficient C-4 selective modification of pyridines is a major challenge for the synthetic community. Current strategies are plagued with at least one drawback regarding functional group-tolerant electronic activation of the heteroarene, mild generation of the required alkyl radicals, regioselectivity, safety and/or scalability. Herein, we describe a fast, safe and scalable flow process which allows preparation of said C-4 alkylated pyridines. The process involves a photochemical hydrogen atom transfer (HAT) event to generate the carbon-centered radicals needed to alkylate the C-2 blocked pyridine. In a two-step streamlined flow process, this light-mediated alkylation step is combined with a nearly instantaneous inline removal of the blocking group. Notably, cheap benzophenone plays a dual role in the pyridine alkylation mechanism by activating the hydrocarbon feedstock reagents via a HAT mechanism, and by acting as a benign, terminal oxidant. The key role of benzophenone in the operative reaction mechanism has also been revealed through a combination of experimental and computational studies

    Edema Induced by sPLA2 from <em>Crotalus durissus terrificus</em> Involves PLC and PKC Signaling, Activation of cPLA2, and Oxidative Stress

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    sPLA2 from Crotalus durissus terrificus venom, free of crotapotin (Cdt sPLA2), purified and isolated sPLA2, was able to significantly increase lipid peroxidation, which occurred simultaneously with increased arachidonic acid (AA) metabolism. In addition, MDA and AA levels were elevated at 15 min after Cdt sPLA2 injection and after peak edema (negative control). Thus, oxidative stress and ROS play important roles in the inflammation induced by Cdt sPLA2. On the other hand, edema induced by sPLA2 involves the direct and indirect mobilization of arachidonic acid by the involvement of phosphokinase C (PKC) and phospholipase C (PLC), which indirectly stimulates cytosolic PLA2 (cPLA2). We also observed that the specific antivenin against Cdt venom had no significant effect on the neutralization of induced edema compared to the natural products 5-caffeine-linoleic acid (5CQA) and dexamethasone (AACOCF3). Our results also indicate that there was improvement in the inhibition of edema of natural polyphenolic compounds compared to antivenin or inhibition of the enzymatic activity of sPLA2 due to the fact that 5CQA is a potent antioxidant compound. Thus, our results show a clear correlation between increased arachidonic acid metabolism and oxidative stress

    Lemaitre-Tolman-Bondi model and accelerating expansion

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    I discuss the spherically symmetric but inhomogeneous Lemaitre-Tolman- Bondi (LTB) metric, which provides an exact toy model for an inhomogeneous universe. Since we observe light rays from the past light cone, not the expansion of the universe, spatial variation in matter density and Hubble rate can have the same effect on redshift as acceleration in a perfectly homogeneous universe. As a consequence, a simple spatial variation in the Hubble rate can account for the distant supernova data in a dust universe without any dark energy. I also review various attempts towards a semirealistic description of the universe based on the LTB model.Comment: Invited Review for a special Gen. Rel. Grav. issue on Dark Energy. 17 pages, 3 figure
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