•HS-GC × GC-FID had been applied to study the volatile profile of edible peanuts and seeds.•Reference templates (GC × GC-FID) were created for each one of the four meals matrices.•Rapid discrimination between natural and roasted samples was achieved.This work is focused on developing a way of combined surface morphology- and crystallographic analysis for crystalline silicon. To show the usefulness associated with Selleck DBZ inhibitor technique, a series of chemical operations, such as for instance polishing and texturing, were applied to multi-crystalline silicon examples. The examples were pre- and post-analysed with WLI and Laue methods, and also the experimental data permitted construction of maps for crystal positioning to etching rate dependency. The analysis illustrates the strengths for the combinatory strategy as an option to existing strategies such as for instance atom force microscopy (AFM) and electron backscatter diffraction (EBSD).•Combination of LAUE tool and white light interferometry strategies.•Alternative time-effective method to EBSD.•Analysis of surface morphology and crystallographic properties for substance processing.In many domain names, decision-making is challenging, as professionals are often limited in availability. But, without an acceptable quantity of expert views, the associated solutions wouldn’t be powerful. Motivated by this, MOSY , an approach for artificial Opinions is created to create a robust Fuzzy Expert System (FES) by specifying N s-r , the sheer number of (synthetic) experts per rule. For every single one of these simple “synthetic professionals”, MOSY produces a viewpoint from a normal circulation feature of a human specialist. Correspondingly, the FES is employed to make an impression from an antecedent vector whose elements tend to be sampled from a uniform distribution. Synthetic and man viewpoint vectors, caused by all rules and wide range of specialists per guideline, are driven to agree through optimization of weights from the fuzzy guidelines. The weight-optimized MOSY was tested against sets of human expert opinions in 2 distinct domain names multiple HPV infection , particularly, a commercial development task (IDP) and passenger vehicle overall performance (PCP). Results showed that Inorganic medicine the artificial and human expert opinions correlated between 91.4% and 98.0% on an average over 5 ≤ N s r ≤ 250 , across five results of the IDP. Also, for PCP, respective correlations varied between 85.6% and 90.8% for 10 ≤ N s r ≤ 150 across the two overall performance steps. These strong correlations indicate that MOSY is capable of creating synthetic viewpoints to yield a robust FES where sufficient individual experts aren’t readily available.•This strategy, known as MOSY , generates synthetic expert opinions to accomplish robustness in an FES.• MOSY was validated against sets of human expert opinions in two distinct domains.•Strong correlations were seen amongst the artificial and human expert opinions.Recent studies claim that the interaction involving the brain and heart plays a vital part in intellectual procedures, and calculating these communications is a must for comprehending the conversation involving the main and autonomic nervous methods. However, learning this bidirectional interplay provides methodological difficulties, and there’s nonetheless much room for exploration. This report presents a unique computational method called the Poincaré Sympathetic-Vagal Synthetic Data Generation Model (PSV-SDG) for estimating brain-heart communications. The PSV-SDG integrates EEG and cardiac sympathetic-vagal characteristics to give time-varying and bidirectional estimators of mutual interplay. The technique is grounded within the Poincaré story, a heart rate variability approach to calculate sympathetic-vagal activity that will account fully for possible non-linearities. This algorithm provides an innovative new method and computational device for functional evaluation associated with the interplay between EEG and cardiac sympathetic-vagal task. The strategy is implemented in MATLAB under an open-source license. • A new brain-heart interacting with each other modeling approach is proposed. • The modeling is founded on combined synthetic information generators of EEG and heart rate series. • Sympathetic and vagal activities tend to be collected from Poincaré plot geometry.In the world of neuroscience and ecotoxicology, discover an excellent significance of investigating the effect(s) of a variety of different chemical substances (e.g., pharmacologically active substances, pesticides, neurotransmitters, modulators) at various biological levels. Various contractile tissue preparations have supplied exemplary model systems for in vitro pharmacological experiments for some time. However, such investigations frequently apply technical power transducer-based techniques. Hence, a rapid, simple, inexpensive, electronic, and reproducible in vitro pharmacological method based on a successful, ‘non-invasive’ (when compared to force-transducer approaches), refraction-based optical recording strategy and isolated heart preparations originated.•A flexible and special refraction-based optical recording system with a Java application was developed.•The tracking system ended up being tested and validated on separated heart preparations obtained from the widely used invertebrate model system, the fantastic pond snail (Lymnaea stagnalis).•The tracking system illustrates the development of technology through the mechanical force transducer system and may portray an appropriate tool in ecotoxicology or neuroscience.Measurement of tree development becomes necessary in lots of clinical and production sectors, particularly in forestry for wood and biomass production.