Existing Test Method Research Articles

Current Trends in The Formation of Mathematical Terminology on An Online Platform

To monitor quality improvement and student learning outcomes, schools must adopt a Minimum Competency Assessment (MCA). The Minimal Competence Assessment consists of two sub-tests: literacy and numeracy. This is in accordance with the provisions of the Indonesian Ministry of Education, Culture, Research and Technology in order to improve the quality of learning and student learning outcomes. The existing test method has limits with school resources that cannot satisfy the quota of pupils who can utilize the program jointly. In addition, the existing system is incapable of displaying student grades because the evaluation is a cumulative score for the whole student body. Hence, the school constructed a web service-based application utilizing the Representational State Transfer approaches so that it could independently administer complete numeracy and literacy assessments to its pupils, allowing schools to track their students' numeracy and literacy improvement. The system is constructed utilizing two distinct platforms, namely web-based apps and mobile applications based on Android. Web-based application was developed for admin and teachers while mobile application was developed for students. The findings of this study's testing indicated that the web service application performed as predicted. According to the findings of the questionnaires given to evaluate the application's usability using the Nielsen technique, teachers were happy with the application's Learnability, Memorability, Efficiency, Errors, and Satisfaction. The majority of instructors are satisfied with the implementation of this Minimum Competence Application, according to the survey findings.

The Design of Web Service-based Minimum Competency Assessment Application with the REST Method in Senior High Schools

To monitor quality improvement and student learning outcomes, schools must adopt a Minimum Competency Assessment (MCA). The Minimal Competence Assessment consists of two sub-tests: literacy and numeracy. This is in accordance with the provisions of the Indonesian Ministry of Education, Culture, Research and Technology in order to improve the quality of learning and student learning outcomes. The existing test method has limits with school resources that cannot satisfy the quota of pupils who can utilize the program jointly. In addition, the existing system is incapable of displaying student grades because the evaluation is a cumulative score for the whole student body. Hence, the school constructed a web service-based application utilizing the Representational State Transfer approaches so that it could independently administer complete numeracy and literacy assessments to its pupils, allowing schools to track their students' numeracy and literacy improvement. The system is constructed utilizing two distinct platforms, namely web-based apps and mobile applications based on Android. Web-based application was developed for admin and teachers while mobile application was developed for students. The findings of this study's testing indicated that the web service application performed as predicted. According to the findings of the questionnaires given to evaluate the application's usability using the Nielsen technique, teachers were happy with the application's Learnability, Memorability, Efficiency, Errors, and Satisfaction. The majority of instructors are satisfied with the implementation of this Minimum Competence Application, according to the survey findings.

A new test method for freeze–thaw resistance of ballastless track structure concrete: experiment and model

Existing methods for evaluating the resistance of concrete to freeze–thaw cycles might not be suitable for concrete used in ballastless track structures (BTSs). In this study a new test method was designed to investigate the freeze–thaw resistance of concrete used in BTSs: the test procedure, the specimen size and the position of the test surface were all redesigned. The results showed that the accumulated scaling mass could reflect the freeze–thaw resistance of BTS concrete better than the relative dynamic modulus of elasticity. Parameter analysis was conducted to shed light on relationships between the accumulated scaling mass and slump, laitance depth and position of test surface and some fitting equations were established. Based on the experimental results, a model of freeze–thaw fatigue life for BTS concrete in cold regions was proposed and verified. According to the calculated fatigue life data, the slump and test method/mould size were the two most significant factors in the freeze–thaw resistance of concrete. In addition, the freeze–thaw resistance of BTS concrete was found to be overestimated by the existing test method; the reason for this overestimation is explained.

Level-Based Learning Algorithm Based on the Difficulty Level of the Test Problem

These days, because of the coronavirus, all countries are introducing online university systems. Online universities have the advantage of allowing students to take classes anytime, anywhere, 24 h a day, but lectures are given in a non-face-to-face manner between instructors and students. Thus, while students are taking classes on a web-based basis, the problem arises that concentration on the lectures is significantly reduced. Therefore, in order to solve these problems, in this paper, we propose a level-wise learning algorithm based on the difficulty level of the test problem, and we present the simulation results. In order to improve this problem, in this paper, we propose an automatic music recommendation algorithm based on fuzzy reasoning that can improve the level of learning and lecture concentration, and we show our results on developing a web-based, smart e-learning software. As a result of computer simulation, it was proved that the learning test method, considering by level the difficulty of the test and the incorrect answer rate, was more effective than the existing test method, judged the student’s grades fairly, and improved the risk of unfairly failing the test by 30%.

Development of Track Superelevation Simulation Testing System

This paper first discusses the standard requirements and the existing test method for the coefficient of flexibility of the existing metro vehicle. The existing method has the disadvantages of manpower cost, insufficient accuracy of track lifting, different lifting speed of jacks under axle boxes. There are also safety hazards of the vehicle capsizing and the jack sliding. This paper introduces a set of simulation testing system based on hydraulic principle for these problems, measuring track superelevation accurately, reading and controlling the height of vehicle body and the track, thus realizing measuring the coefficient of flexibility. This system has the advantages of simple structure, easy installation, convenient operation and high measuring precision. The track distance, wheelbase and biaxial distance are all variable. It also saves manpower and effectively eliminate safety hazards.

(Invited) Updated Key Issues for SiC MOSFET Reliability

This work will provide an updated overview of our understanding of several key reliability issues for SiC power MOSFETs, including threshold-voltage stability, body-diode robustness, and short-circuit current robustness. We will also discuss recent results regarding the modeling of high-field breakdown in SiC and other power semiconductor devices.Threshold-voltage instability likely occurs due to the charging and discharging of near-interfacial oxide traps in response to a change in gate bias. If enough traps change charge state, it can lead to significant shifts in the threshold voltage, which may in turn lead to increases in leakage current in the off state, or increases in on-state resistance in the on state. An important question is, what is the best—or most appropriate—test method to use to determine the reliability of these devices. A key factor is the measurement speed used to determine the magnitude of the threshold-voltage instability. It has recently been observed that one commercial device manufacturer has large instabilities, even in previously unstressed devices, and that such large instabilities can result in significant increases in on-resistance during normal switching conditions, thereby degrading circuit performance.Some suppliers of SiC power MOSFETs are producing devices with low basal plane dislocation (BPD) density, resulting in decreased bipolar degradation during normal operation of its integral body-diode. However, not all suppliers manage their BPD densities to the same degree, resulting in a variation in responses observed across suppliers. Even devices from a single supplier with the same date code exhibited varying levels of degradation for identical body-diode stress and measurement conditions. Unlike other extended defects, BPDs when faulted, leads to degradation in both the body-diode and MOSFET characteristics. These faulted BPDs induce stacking faults that expand over time and limits the reliability of some commercially available SiC MOSFETs. This degradation phenomenon necessitates the development of an appropriate reliability test standard for SiC to separate good devices from bad ones. Three of the five major suppliers of 1200-V SiC MOSFETs showed varying levels of bipolar degradation in both their body-diode forward voltages and their MOSFET on-resistances. Two out of three suppliers of 1700-V SiC MOSFETs showed significant bipolar degradation issues with one particular supplier’s devices showing forward voltage changes of 1.3 V to 2.5 V from their pre-stress values. Their on-state resistance values were also significantly degraded.Another important aspect of SiC MOSFET reliability is its robustness to short-circuit current conditions that can occur in many power electronics applications utilizing a half-bridge topology. Since both planar and trench device architectures are commercially available, electrical results have been generated to highlight their short-circuit capabilities under similar circuit conditions. Our electrical results show that trench devices have lower robustness in comparison to planar devices of similar ratings. These differences in short-circuit withstand times can be attributed to the smaller heat conduction volume of the trench design coupled with its higher saturation drain current for the same gate-drive voltage. The existing test method for short-circuit withstand time in the MIL-STD may overestimate the actual withstand time because it relies on a single gate-pulse method. Electrical results indicate that an incremental gate-pulse method may be more accurate in determining the actual withstand time, and it has proven to be more effective in determining latent failures missed by the standard method.Another key issue for power devices in general is the trade-off between on-state resistance and blocking voltage. One of the key advantages of wide bandgap (WBG) materials such as SiC is that it can block the same voltage as Si using a much thinner, and more highly-doped, blocking layer. This results in a much lower on-state resistance at the same rated voltage. The superior high-field properties of WBG (and ultra WBG) power semiconductor materials also enable them to block much higher voltages than Si is able—as long as the background doping is low enough. We will present recent work, using impact ionization coefficients from the literature, to calculate avalanche breakdown as a function of epi-layer thickness and doping, thereby determining on-state resistance versus breakdown voltage for SiC and GaN. We will compare these results to Si, as well as to UWBG materials such as diamond, AlGaN, and Ga2O3. It is observed that SiC and GaN have very similar characteristics in terms of critical field, and in their relationships between on-state resistance and blocking voltage.

Identification of gene expression markers and development of evaluation method using cell-based and RT-PCR-based assay for skin sensitising potential of chemicals

Recently, alternatives to animal testing have been used to evaluate skin sensitisers in cosmetic products. However, testing is still complicated and expensive. To develop a simpler, cost-effective and more accurate evaluation method for the skin sensitising chemicals, we employed cell-based and RT-PCR-based assay. Representative sensitiser specific gene expression in THP-1 cells was analysed by microarray. Gene ontology (GO) analysis revealed that 26 genes induced by the sensitisers were associated with immune function. First, seven of the 26 genes were chosen arbitrarily as candidate markers for our sensitisation assay. Then, THP-1 cells were exposed to 13 reference chemicals with known sensitising potential, and real-time RT-PCR assays targeting the candidate marker genes were performed. Among them, six markers were able to properly evaluate the sensitisation potential by classifying the gene induction rates with appropriate criteria. Especially, the results of the assay using TREM1 and TNFRSF12A gene markers showed 100% sensitivity and specificity. An existing test method, h-CLAT, requires a flow cytometer and is complicated to operate. In contrast, our method is relatively simpler and more cost-effective. Therefore, our method is a promising one to evaluate sensitising chemicals.

The sensitivity test of 2.45GHz RFID active tag

RFID active tag sensitivity is an important indicator of the tag, and its sensitivity is related to the location and orientation of the tag. However, in the actual application of the tag, its optimal working position and direction cannot be determined directly. Analysed the existing test method of active tag sensitivity, the test result of the tag sensitivity in any direction is used as the tag sensitivity. For the limitations of existing test methods, this paper presents a new idea and method for sensitivity testing of a 2.45GHz RFID active tag. Setting up the test environment used the biconical antenna, based on the sensitivity test in the stepping at the same angle in different directions, and the analysis algorithm based on measured data. The test experiment shows that the test result based on this method is rigorous and effective, and can be widely used in 2.45GHz RFID active tag sensitivity test.

BPMN 기반 경로 탐색을 이용한 테스트 케이스 생성 기법

SOA (Service Oriented Architecture)를 기반으로 하는 소프트웨어는 비즈니스 요구사항에 기민하게 대응할 수 있어 사용이 확대되고 있다. SOA는 느슨한 서비스 결합과 메시지 교환 중심 아키텍처라는 특징 때문에 기존의 테스팅 방법 적용이 제한된다. 본 논문에서는 BPMN (Business Process Model and Notation)을 이용해 테스트 케이스를 생성하는 기법을 제안한다. 먼저 프로세스를 모델링하고, 이를 통해 비즈니스 흐름 그래프(BFG)를 생성한다. BFG의 입출력 차수를 대칭하고, 오일러 경로를 탐색하여 테스트 케이스를 생성한다. BPMN을 이용한 테스트 케이스 생성 기법은 SOA 기반 시스템에 적용 가능하며, 테스트 케이스 수를 감소시킬 수 있다. The SOA (Service Oriented Architecture) based softwares are escalated because of quickly coping with business requirement. SOA can not apply to existing test method because of loosely coupled service and massage exchange architecture. In this paper, we suggest a method of test case generation using BPMN (Business Process Model and Notation). First we model processes, then make Business Flow Graph (BFG). After searching the euler path through symmetrized BFG about input and output degrees, we generate test cases. A method of test case generation using BPMN can apply at SOA-based system, and reduce the number of test cases.

Non destructive fabric weight measurement using capacitance principle

Purpose The purpose of this paper is to design and develop an instrument for non-destructive fabric grams per square metre (GSM) measurement. This study uses the capacitance principle to obtain the fabric GSM. The relative permittivity of the sample fabrics changes the capacitance value. A relationship between capacitance and GSM that best fits the look-up table is obtained. Also, the developed system is applicable for all kind of fabrics both knitted and woven fabrics. The comparison study was carried out with existing test method. Design/methodology/approach The purpose of the study is to design and develop an instrument for non-destructive fabric GSM measurement. Findings The proposed non-destructive method of fabric GSM measurement using capacitance principle is designed, developed and tested. Also, the developed system is applicable for all kind of fabrics both knitted and woven fabrics. The comparison study was carried out with existing test method. Research limitations/implications The change in capacitance due to relative permittivity of the sample fabric is in pF range (10-12). The system can be further improved by using a capacitance sensor of sensitivity upto 1 fF (10-15). By doing so, the proposed system provides better results in terms of accuracy and resolution. The system developed can be further extended by making it online equipment which measures the fabric GSM instantaneously. Originality/value So far there is no non-destructive testing method available for fabric weight measurement. The newly designed and developed instrument is used to test the fabric both woven and knitted non-destructively.

Effect of Various Side Grooves on 3D Crack-Front <i>J</i>-Integral for CT Specimens

Three-dimensional (3D) elastic-plastic finite element model (FEM) is adopted to research the effect of side groove on the crack-front J-integral for different size of Compact Tension (CT) specimens. Although the side-grooved CT specimen is widely used in the existing test method, such as ASTM E1820-13, the test data of fracture toughness is varying with the various geometric parameters. Before FE calculation, the material properties of Q345 steel were obtained by uniaxial tensile test, especially for the true stress-strain relationship. In this paper, it focuses on the numerical study of geometric parameter effects on the fracture toughness. Toward this end, the commercial FE software of ABAQUS is adopted to calculate the J-integral. Since the side groove of CT specimen is so important to make the fracture test success, the various parameters of side groove is intensively analyzed for obtaining the accurate J-integral along the crack front, including the effects of the angle, depth and root radius. In fact, the side groove effect is so significant around the crack front that cannot be ignored in the J-integral calculation. Through rigorous FE investigation, the influence of the side groove on the fracture toughness testing is fully disclosed, and the appropriate side groove configuration is recommended accordingly.

Determination of the thermal protective performance of clothing during bench-scale fire test and flame engulfment test: Evidence from a new index

The protective performance of heat- and flame-resistant materials can be studied using a bench-scale test or a full-scale instrumented manikin test. However, there are some limitations of these evaluation methods. The existing bench-scale test could not be applied entirely to assess the thermal protective performance of fabrics if the exposure duration is fixed, while the existing manikin test only provides limited information about the local difference in thermal insulation. This study developed a new index of maximum attenuation factor to second-degree burn injury (maximum attenuation factor) as an improved quantitative method of the thermal protective performance, and then investigated the use of maximum attenuation factor during the bench-scale test as well as the manikin test. It demonstrated that the calculations of maximum attenuation factor were highly repeatable. In both the bench-scale and the manikin test, strong correlations were found between the results derived from the proposed method and the measurements from the existing test method. The results between the bench-scale test and the manikin test can also be compared as a united index.

Investigation of moisture condition and Autoclam sensitivity on air permeability measurements for both normal concrete and high performance concrete

While on site measurement of air permeability provides a useful approach for assessing the likely long term durability of concrete structures, no existing test method is capable of effectively determining the relative permeability of high performance concrete (HPC). Lack of instrument sensitivity and the influence of concrete moisture are proposed as two key reasons for this phenomenon. With limited systematic research carried out in this area to date, the aim if this study was to investigate the influence of instrument sensitivity and moisture condition on air permeability measurements for both normal concrete and HPC.To achieve a range of moisture conditions, samples were dried initially for between one and 5weeks and then sealed in polythene sheeting and stored in an oven at 50°C to internally distribute moisture evenly. Moisture distribution was determined throughout using relative humidity probe and electrical resistance measurements. Concrete air permeability was subsequently measured using standardised air permeability (Autoclam) and water penetration (BS EN: 12390-8) tests to assess differences between the HPCs tested in this study.It was found that for both normal and high performance concrete, the influence of moisture on Autoclam air permeability results could be eliminated by pre-drying (50±1°C, RH 35%) specimens for 3weeks. While drying for 5weeks alone was found not to result in uniform internal moisture distributions, this state was achieved by exposing specimens to a further 3weeks of sealed pre-conditioning at 50±1°C. While the Autoclam test was not able to accurately identify relative HPC quality due to low sensitivity at associated performance levels, an effective preconditioning procedure to obtain reliable air permeability of HPC concretes was identified.

Study on the Delay of UAV Data-Link Based on TDMA and Aloha Channel Access Protocol

The existing test method for properties of UAV data-link is usually the actual flight test or field "distance" test, which has long test cycle and difficulty for the extraction of test data. In view of this situation, we in this work adopted the data-link semi-physical simulation test platform based on darkroom calibrate-link method, establishing and analyzing the space natural decline model, atmospheric environment model, and aircraft attitude angle model that affecting the transmitting and receiving of signals. Meanwhile, the average delay from-terminal-to-terminal and the fluctuation of the average delay of the UAV under different MAC channel access protocols are discussed using the darkroom calibrate-link method. In order to improve the response characteristics of the UAV, time delay is compensated using optimal control methods, and the effectiveness of the compensation method is validated based on and the platform we built. The simulation results show that, the design of UAV data-link can be calculated by this theory, and the introduction of the optimal control method significantly improves the dynamic response characteristics of the UAV.

Monitoring phosphodiesterase‐4 inhibitors using liquid chromatography/(tandem) mass spectrometry in sports drug testing

The recent discovery of resveratrol's capability to inhibit cAMP-specific phosphodiesterases (PDEs) and, as a consequence, to enhance particularly the activity of Sirt1 in animal models has reinforced the interest of preventive doping research organizations, especially in PDE4 inhibitors. Among these, the archetypical PDE4-inhibitor rolipram significantly increased the number of mitochondria in laboratory rodents, which further demonstrated a performance increase in a treadmill-test (time-to-exhaustion) of approximately 40%. Besides rolipram, a variety of new PDE4-inhibiting substances including cilomilast, roflumilast, and numerous additional new drug entities were described, with roflumilast being the first-in-class having received clinical approval for the treatment of chronic obstructive pulmonary disease (COPD). Due to the availability of these substances, and the fact that a misuse of such compounds in sport cannot be excluded, it deems relevant to probe for the prevalence of these compounds in sports drug testing programs. Known urinary phase-I metabolites of rolipram, roflumilast, and cilomilast were generated by in vitro incubations employing human liver microsomal preparations. The metabolites obtained were studied by liquid chromatography with high-resolution/high-accuracy tandem mass spectrometry (LC/MS/MS) and the reference product ion mass spectra of established and most relevant metabolites were utilized to provide the information necessary for comprehensive doping controls. The analytical procedure was based on conventional routine doping control assays employing enzymatic hydrolysis followed by liquid-liquid extraction and subsequent LC/MS/MS measurement. Structures of diagnostic product ions and dissociation pathways of target analytes were elucidated, providing the information required for implementation into an existing test method for routine sports drug testing. The established method allowed for detection limits for the intact drugs of 1-5 ng/mL, and further assay characteristics (intraday precision 1.5-13.7%, interday precision 7.3-18.6%, recovery 20-100%, ion suppression/enhancement, and specificity) were determined. In addition, proof-of-concept analyses concerning roflumilast were conducted with a urine sample obtained from a COPD patient under roflumilast treatment.

The Establishment of the Human Body's Perception Current Threshold Model Based on BP Neural Network

EEG feature identification and body's sensing are used together to confirm that the current flowing through the human body reaches the perception threshold, since the existing test method is sensitive to the subject's subjective awareness and experimental data's reliability and consistency are not good. Based on the test method, the relationship is studied among the human body's perception current effect threshold and many influencing factors such as touch voltage, touch area, touch pressure, skin type, environmental temperature and humidity, the time period in which the current passes through the human body, current frequency, current waveform, current path, etc. to explore the combined effect of those factors on human body's perception current threshold. The model of the human body's perception current threshold is established based on BP neural network to evaluate comprehensively the leakage current effect on the human body's perception current threshold and the model accuracy is about 99%.

Abstract 2089: Fully automated SNP detection from whole blood and mutation detection from plasma-free DNA

Abstract Purpose Gene polymorphism and genetic mutation are related to the therapeutic effect of many drugs, and a simple genetic test method is preferred. To meet this demand, we have developed a platform for genetic testing called i-densy, which can complete fully automated gene polymorphism analysis from whole blood in approximately 90 minutes, and compared it with the existing test method. Also, recent reports indicate that DNA derived from cancer cells are liberated in blood (it is called “circulating cell-free DNA”). Using the i-densy, we here tested EGFR gene T790M mutation in circulating cell-free DNA from a sample derived from advanced lung cancer patient with EGFR-TKI aquired resistance, and then compared with the existing test method. Methods The i-densy newly developed can perform fully automated gene polymorphism testing from 70μL of whole blood and allows typing of 3 polymorphisms or mutations in a single reaction. Four samples can be tested at once with this instrument, and testing is also possible using oral mucosa or purified nucleic acid instead of whole blood. In addition to the i-densy, circulating cell-free DNA was also tested using Mutation Biased PCR (MBP) method that can preferentially amplify mutation sequence. Results As a result of using the i-densy with whole blood for gene testing on 1236C>T, 3435C>T and 2677 G>(T/A) polymorphism of ABCB1 gene related to toxicity and pharmacokinetics of EGFR-TKI erlotinib, results of 1236C>T and 3435C>T matched with that of Taqman assay method and 2677 G>(T/A) matched with Direct sequencing method for all 20 samples. We also extracted free DNA from peripheral blood plasma of a patient, and tested EGFR T790M mutation using Mutation Biased PCR (MBP) method, PNA-LNA PCR clamp method and Cycleave method. Among 19 patients with acquired resistance to EGFR-TKI, number of patients tested positive for T790M were 10 (53%) using MBP method, 3 (16%) using PNA-LNA PCR method and 5 (26%) using Cycleave method. Also, when using MBP method, there was not a single case with T790M mutation detected among cases with continued therapeutic effect or which EGFR-TKI is not used. Conclusion The i-densy newly developed has been identified to be simple and fast that allows accurate gene polymorphism from whole blood, and also confirmed to be useful in clinical practice. As a result of EGFR gene T790M mutation testing from circulating cell-free DNA using the i-densy and MBP method, appearance ratios of acquired resistance mutation were very close to each other (approximately 50%), indicating the high detection performance compared to other methods. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 103rd Annual Meeting of the American Association for Cancer Research; 2012 Mar 31-Apr 4; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2012;72(8 Suppl):Abstract nr 2089. doi:1538-7445.AM2012-2089

Quantitative measurement of filament ruptures of a multi-filament AR-glass yarn embedded in concrete

This paper presents a new digital image analysis method for quantitative and online measurement of filament ruptures of a multi-filament AR-glass yarn embedded in concrete during pullout loading. The proposed method was developed based on an existing test method for determination of filament ruptures occurring during the loading called failure investigation using light transmitting (FILT) property test, which uses light transmitting property of AR-glass fibers. Artificial light is exposed on the glass filaments from one side of the specimen. On the opposite side, a charge-coupled device (CCD) camera with an optical microscope records the lighted filament cross-sections in the yarn. To detect filament ruptures during pullout loading, the light intensity time history of every individual filament of the yarn was investigated by a digital image analysis method. The number of broken filaments was also investigated by acoustic emission (AE) analysis simultaneously and the results were compared. Test results showed that the light transmitting property of AR-glass can be used to identify filament ruptures and it is possible to determine the failure of the filaments during pullout in the cross-section quantitatively by the improved FILT test.

대형 보형 실험체의 다점 다하중 가력을 위한 실험장치 구성에 관한 연구

구조실험에서 정확성과 효율성을 높이기 위해서는 적절한 실험장치를 적용하는 것은 중요한 요소이다. 특히, 대규모의 구조 실험에서 적절한 실험장치는 비용과 시간을 절감할 수 있다. 액츄에이터와 유압잭 및 UTM은 실험체의 휨 능력을 평가하는 데 일반적으로 적용되고 있다. 그러나, 대규모 실험체에서 다점 다하중 가력하중이 적용되어야 하는 경우에는 기존의 UTM 등을 이용하는 실험방법은 정확한 하중을 가력하기에 어려움이 많다. 이를 해결하기 위하여 본 연구에서는 실험결과의 정확성과 효율성을 높이기 위하여 기존의 실험장치로 조합된 새로운 방법을 개발하였다. In the field of structural test, it is a very important factor to apply with an appropriate test jig to enhance test accuracy and efficiency. Especially in the large scale structure test, proper test apparatus scheme will reduce overall cost and time of the test project. Actuators, oil jack and UTM is generally used to evaluate the flexural capacity of the test beam. But in the case of multiple loading point or asymmetric loading of large scale test specimen, existing test method such as UTM have a difficulty in giving an accurate load. In this study new test method which is composed of existing test apparatus will be developed to improve test accuracy and economic efficiency.

New method for automobile reliability test correlated with customers

In order to research the fatigue reliability of the load carrying structures on a heavy duty vehicle, a new reliability test technique correlated customer usage is proposed based on automotive proving ground, and the technique can combine the real customer field usage to the vehicle with the enhancement test on proving ground, and avoid the test blindness. Aiming at the data that are tested on the typical road surfaces of the customer and enhancement roads of proving ground, the rain-flow counting method is used to obtain the load distribution matrixes, according to the correlation equation, the cumulative fatigue damage and loading spectrum covering the 90% customer and proving ground are optimized and calculated. Through the correlation analysis of the test data, the road surface enhancement coefficient and the customer data reliability test specifications of proving ground are obtained. The test results indicate that the new specifications can predict the potential failures of the load carrying structures quickly, shorten the test cycles, and reduce the test cost and new product development expense, compared with the existing test method.