The NH 4OH exposure-induced allergic acute inflammation with coughing responses was dose-dependently and significantly ( p < 0.01) inhibited by pretreatment with SKOG at doses of 400, 200, and 100 mg/kg. SKOG were orally administered to ICR mice at 400, 200, and 100 mg/kg once a day for 11 days to examine antitussive, expectorant, and anti-inflammatory effects. SKOG may be served as a novel preventive and/or therapeutic agent for various respiratory diseases. In this paper, we hypothesized that ShashamKyeongok-go (SKOG) is a mixed preparation of Adenophorae Radix powder (AR) and Kyeongok-go (KOG). The screw shaft length is the most influencing MVMS parameter. The MVMS condition was satisfied with an error less than 1.1% in comparison with FEM and ANN results. Using the ANN coefficients, a sensitive study was performed to identify the influence of the design parameters in the MVMS. To obtain the optimal value for (SP) in the mini absorbable screw for fracture fixation, a strategy to invert the ANN is developed. Each DOE configuration was solved by means of finite element method (FEM) calculations. For training the ANN, a database was generated by means of a design of experiments (DOE). This optimal SP must satisfy a desired maximum von Mises strain (MVMS). The purpose of this paper is to find the optimal screw pretension (SP) in absorbable plate and screw systems by means of artificial neural network (ANN) and its inverse (ANNi). Absorbable material for implants is an alternative to titanium, but there are also problems such as incomplete screw insertion and screw breakage due to high pretension in the screw caused by the insertion torque. Mandibular fractures are common facial lesions typically treated with titanium plate and screw systems nevertheless, this material is associated with secondary effects. The results show that our prototype can resolve more indirect jump relations and construct more complete CFGs than existing approaches. We have implemented our technique in a prototype and evaluated it through comparing with the existing approaches on eight benchmarks. In addition, we also propose an iterative feedback mechanism to further improve the completeness of CFGs. Finally, we combine the static CFGs with indirect jump relations to construct more complete CFGs. Then, we utilize directed gray-box fuzzing to generate test cases and resolve indirect jump relations by monitoring the execution traces of these test cases. We first employ a static analysis to construct the static CFGs without indirect jump relations. The main innovation of our approach is to adopt directed gray-box fuzzing (DGF) instead of coverage-based gray-box fuzzing (CGF) used in the existing approach to generate test cases that can exercise indirect jumps. In this paper, we propose a practical technique that applies static analysis and dynamic analysis to construct more complete control flow graphs. However, due to the difficulty of resolving indirect jump relations, the existing techniques are limited in completeness. Existing techniques for constructing control flow graphs include static, dynamic, and hybrid analysis, which each having their own advantages and disadvantages. To view the papers in pdf format, click on the "PDF Full-text" link, and use the free Adobe Reader to open them.Ĭontrol Flow Graphs (CFGs) provide fundamental data for many program analyses, such as malware analysis, vulnerability detection, code similarity analysis, etc. PDF is the official format for papers published in both, html and pdf forms.You may sign up for e-mail alerts to receive table of contents of newly released issues.Issues are regarded as officially published after their release is announced to the table of contents alert mailing list.The functionality of the final beam shaping module is tested by transferring an incoming intensity distribution into a high-quality Top-Hat. The fabricated elements are assembled together with a laser-cut aperture into an additively manufactured housing revealing a length of only 16 mm. Against this background, two lens arrays are fabricated for a compact beam homogenizer module by an all laser-based technology employing a precise femtosecond pulsed laser ablation and a CO 2 laser polishing step. Femtosecond pulsed lasers offer great advantages for contactless and, thus, gentle and wear-free manufacturing of optical elements with freely selectable geometry.
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