Liyue Yan, Houjun Wang, Hao Wang, Zhen Liu
A B-spline and OS-ELM Fusion Approach for Prognostics with Singularity Problems

In practice, the degradation process of electronic products is usually accompanied with singularities caused by intermittent and transient interference, improper conduct on singularity processing would inevitably and seriously affect the accuracy of products’ life-time prediction. Taking advantage of rapid development of AI technology recent year, a new surrogate approach based on spline function and online sequential extreme learning machine (OS-ELM) is developed in this paper, to address these issue. This fusion approach takes the cubic non - polynomial spline function as the prediction cell of the output from OS-ELM, the second derivative of the spline model can be adopted and calculated to form a series of observation frames, meanwhile, an improved particle swarm optimization (PSO) is used to optimize the parameters of ELM hidden network to help with forecasting the observation sequence and rebuild the spline function. In the verification stage, two numerical simulation examples and a practical application involving typical time series data with singularities demonstrate the effectiveness of this proposed fusion method, respectively.

Phuritpach Nantasitangkool, Nitiphat Kittirakshakula, Wanna Watcharayotinkul, Worapot Prongmanee, Umaporn Lamdab, Siripassorn Sukhkhawuttigit, Hathaichanok Muenkla, Nalin Ratnarathorn, Rung Kumpoo, Nakarin Sihabunmak, Zenith Samransamruadkit
Interlaboratory Comparison of Gunshot Residue Analysis

The investigation of Gunshot Residue (GSR) in Forensic science was carried out by Scanning Electron Microscope (SEM) energy-dispersive x-ray spectroscopy (EDS) and Inductively Coupled Plasma - Optical Emission Spectrometer (ICP-OES). These techniques are not widely used in Thailand. However, the commercial laboratory (CL), Central Institute of Forensic Science (CIFS), and the Royal Thai Police (RTP) attempt to develop these techniques to promote novel ways for GSR analysis. Also, the standard measurement was a crucial requirement in ISO/IEC 17025 quality standard. As a part of quality assurance, proficiency testing and interlaboratory measurement are important criteria in technical requirements. Therefore, the preliminary design of GSR analysis for interlaboratory in Thailand was developed. The quality control sample (QC-sample) was prepared by collecting GSR from the right-hand’s volunteer after shooting. The comparison of GSR analysis between the commercial laboratory and Royal Thai Police for SEM technique and between Central Institute of Forensic Science (CIFS) and the Royal Thai Police for ICP-OES technique. This research was then compared by a paired t-test at the 95 % confidence level. The results indicated the efficiency to detect GSR under the same condition between the commercial laboratory and Royal Thai Police and Central Institute of Forensic Science (CIFS) and the Royal Thai Police are similar.

Andrés J Bohórquez, Sergio A. Carvajal, Ciro A. Sánchez, Astrid Riveros
Long-Term Loading Effect on Stability and Spatial Uniformity of Climatic Chambers

In this work, a study of the impact that the commonly-known ‘loading effect’ has over the determination of inhomogeneity and temporal stability of a climatic chamber is presented. Consecutive yearly characterizations of a twopressure humidity generator treated as a climatic chamber revealed that the spatial inhomogeneity strongly depends on the environmental conditions of the laboratory as well as the percentage of the work volume occupied by ‘loading devices’, such as capacitive thermohygrometers. Results show that temperature and relative humidity measurements can vary as much as 0.4 °C and 0.1 %HR, respectively, if the load occupies at least 40% of the work volume. The effect on stability is considerably lower and in the worst case is 0.01 °C and 0.06 %HR.

Johanna Abella, Andrea Mojica, Diego A. Ahumada
Assessment of the homogeneity of repackaged batches of reference materials

During 2020, the National Metrology Institute of Colombia, organized one proficiency testing (PT) for the quantification of elements in water. In the PT, external reference values were used instead of consensus values derived from the participants' results. The test material used in the PT was a certified reference material from another National Metrology Institute. To maintain the confidentiality of certified values, it was necessary to carry out a repackaging process. Therefore, in this work are presented the results of several studies that sought to establish the best mechanism to carry out this repackaging process. Among the investigations carried out, were evaluated: (i) kind of sampling and (ii) the number of bottles to assess the homogeneity of the new batch. The homogeneity uncertainty was estimated based on the number of bottles and depending on the type of sampling. From the results, it was identified that (i) most of the elements evaluated, the smallest contribution to the uncertainty is obtained when every two units are systematically sampled, and (ii) the estimation of uncertainty due to homogeneity causes an overestimation up to three times when the number of bottles is varied.

Leonardo Soto, Niño Fabian, Diego A. Garzón, Diego A. Ahumada
Development of Reference Material of Mercury in Fish: A comparison of different alternatives to homogeneity assessment

A candidate to certified reference material for mercury in fish was produced from Calophysus macropterous, a species of catfish that has been reported with high levels of this contaminant at the Amazonian region. The fish was filleted, freeze-dried and degreased, then sieved, homogenized and packaged; 106 bottles were produced with a net content of 15 g. In the study of homogeneity of the material, ICP-MS in standard mode was used, like a measurement method with microwave-assisted acid digestion. The homogeneity assessment with a random sampling stratified was carried out. The preparation and measurements of the samples were carried out using microwave-assisted digestion and ICP-MS. The current study involved the evaluation of different isotopes (¹⁹⁹Hg, ²⁰⁰Hg, ²⁰¹Hg, ²⁰²Hg) and internal standards to correct the analytical signals. Finally, to evaluate the uncertainty due to heterogeneity, different approaches were used. The results showed that there are differences between the classic ANOVA approach and meta-analysis methods, especially when MSbetween < MSwithin. Furthermore, the most important differences were found between the uncertainties using different combinations of isotopes / internal standards, because in some cases, up to three times higher uncertainties were found.