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  1. Veera Pandiyan Kaliani Sundram, V.G.R. Chandran Govindaraju, Nagatheesan V. Marimuthu
    MyJurnal
    A road safety audit is a formal examination of an existing or future road or traffic project, or any project that interacts with road users, in which independent, qualified examiners look at the projects crash potential and safety performance. The objectives of road safety audit are to identify potential safety risks for road users and to ensure that measures to eliminate or reduce the risks are fully considered. Road safety audit works in two ways to ensure that safety is improved, namely by removing preventable crash producing elements at the design stage and by mitigating the effects of any remaining risks by the inclusion of suitable crash-reducing elements. The present paper focuses on providing a preliminary or basic understanding of the Road safety Audit. Later the discussion is preceded further to the important elements and the various stages in the Road Safety Audit. Finally, the conclusion focuses briefly on the implementation of the Road Safety Audit, which can only be successful if the members of the Audit Team possess sufficient specialized professional knowledge and other virtues.
    Matched MeSH terms: Virtues
  2. Li Y, Wang Y, Liu Z, Zainal Abidin IM, Chen Z
    Sensors (Basel), 2019 Sep 23;19(19).
    PMID: 31547499 DOI: 10.3390/s19194102
    The cladded conductor is broadly utilized in engineering fields, such as aerospace, energy, and petrochemical; however, it is vulnerable to thickness loss occurring in the clad layer and nonconductive protection coating due to abrasive and corrosive environments. Such a flaw severely undermines the integrity and safety of the mechanical structures. Therefore, evaluating the thickness loss hidden inside cladded conductors via reliable nondestructive evaluation techniques is imperative. This paper intensively investigates the pulse-modulation eddy current technique (PMEC) for the assessment of thickness loss in a cladded conductor. An analytical model of the ferrite-cored probe is established for analyzing PMEC signals and characteristics of lift-off intersection (LOI) in testing signals. Experiments are conducted for evaluation of the thickness loss in cladded conductors. An inverse scheme based on LOI for estimation of the thickness-loss depth is proposed and further verified. Through simulations and experiments, it is found that the influences of the thickness loss in the clad layer and protective coating on the PMEC signals can be decoupled in virtue of the LOI characteristics. Based on LOI, the hidden thickness loss can be efficiently evaluated without much of a reduction in accuracy by using the PMEC probe for dedicated inspection of the cladded conductor.
    Matched MeSH terms: Virtues
  3. Rafizah Musa, Mohamad Syazli Fathib
    MyJurnal
    Industries in Malaysia are entering a period of major disruption caused by new technologies such as Artificial Intelligent, Robotics, Blockchain, Nanotechnology as well as Building Information Modelling (BIM) and the Internet of Things (IoT). In this fourth industrial revolution where information is generated and exchanged at a rapid and huge scale, its reliability is of paramount importance. The success of Occupational Safety & Health Management System (OSHMS) is highly dependent on the reliability of the information gathered and used, where a large number of intermediaries authenticate the information to establish trust between the stakeholders. Blockchain technology is able to do verification by virtue of secured distributed storage brings about a paradigm shift in the way we establish trust. This paper gives an overview of the potential use of Blockchain technology for Occupational Safety & Health Management System. The discussions focused on the benefits and challenges of implementing the Blockchain technology in OSHMS. The conclusion is drawn based on the strength in the characteristics provided by the Blockchain technology itself.
    Matched MeSH terms: Virtues
  4. Muhammed Shameem KM, Chawla A, Mallya M, Barik BK, Unnikrishnan VK, Kartha VB, et al.
    J Biophotonics, 2018 06;11(6):e201700271.
    PMID: 29411942 DOI: 10.1002/jbio.201700271
    Presence of renal-calculi (kidney stones) in human urethra is being increasingly diagnosed over the last decade and is considered as one of the most painful urological disorders. Accurate analysis of such stones plays a vital role in the evaluation of urolithiasis patients and in turn helps the clinicians toward exact etiologies. Two highly complementary laser-based analytical techniques; laser-induced breakdown spectroscopy (LIBS) and micro-Raman spectroscopy have been used to identify the chemical composition of different types of renal-calculi. LIBS explores elemental characteristics while Raman spectroscopy provides molecular details of the sample. This complete information on the sample composition might help clinicians to identify the key aspects of the formation of kidney stones, hence assist in therapeutic management and to prevent recurrence. The complementarity of both techniques has been emphasized and discussed. LIBS spectra of different types of stones suggest the probable composition of it by virtue of the major, minor and trace elements detected from the sample. However, it failed to differentiate the crystalline form of different hydrates of calcium oxalate stone. This lacuna was overcome by the use of Raman spectroscopy and these results are compared with conventional chemical analysis.
    Matched MeSH terms: Virtues
  5. Mohamed Yusoff AA
    J Cancer Res Ther, 2015 Jul-Sep;11(3):535-44.
    PMID: 26458578 DOI: 10.4103/0973-1482.161925
    Brain tumor is molecularly a heterogeneous group of diseases, and genetic factors seem to play a crucial role in its genesis. Even though multiple alterations in the nuclear-encoded genes such as tumor suppressor and oncogenes are believed to play a key role in brain tumorigenesis, the involvement of the mitochondrial genome to this event remains controversial to date. Mitochondrial DNA (mtDNA) has been suspected to be associated with the carcinogenesis because of its high sensitivity to mutations and inefficient repair mechanisms in comparison to nuclear DNA. Thus, defects in mtDNA could also lead to the development of brain tumor. By virtue of their clonal nature and high copy number, mtDNA mutations may provide a new effective molecular biomarker for the cancer detection. It has been suggested that establishing mtDNA defective pattern might be useful in cancer diagnostics and detection, the prognosis of cancer outcome, and/or the response to certain treatments. This mini-review gives a brief overview on the several aspects of mtDNA, with a particular focus on its role in tumorigenesis and progression of brain tumor. Understanding the role of mitochondria and brain tumor development could potentially translate into therapeutic strategies for patients with these tumors.
    Matched MeSH terms: Virtues
  6. NWANESI PETER KARUBI, ELAINE CHAI YEE NING
    MyJurnal
    This article examines the impact of gender socialization in Malaysian families, especially on daughters regarding their perception towards work inside and outside the home. Hence, this study utilized in-depth interview as part of the qualitative methods to obtain quality data needed. The study establishes, that patriarchy environment, especially one with the classic model of ‘breadwinner father, housewife mother’ creates a pressure on women to bear more household responsibility. Thus, the dominant gender ideologies are entangled with ‘motherhood mandate’ and ‘superior feminine virtue’ that is associated with the reason women left the labour force. It was equally necessary to point out here that other agents of socialization such as media, peers and education played its part as well and influenced the respondent’s conformity to patriarchal values.
    Matched MeSH terms: Virtues
  7. Heintz S, Ruch W, Platt T, Pang D, Carretero-Dios H, Dionigi A, et al.
    Front Psychol, 2018;9:92.
    PMID: 29479326 DOI: 10.3389/fpsyg.2018.00092
    Recently, two forms of virtue-related humor, benevolent and corrective, have been introduced. Benevolent humor treats human weaknesses and wrongdoings benevolently, while corrective humor aims at correcting and bettering them. Twelve marker items for benevolent and corrective humor (the BenCor) were developed, and it was demonstrated that they fill the gap between humor as temperament and virtue. The present study investigates responses to the BenCor from 25 samples in 22 countries (overallN= 7,226). The psychometric properties of the BenCor were found to be sufficient in most of the samples, including internal consistency, unidimensionality, and factorial validity. Importantly, benevolent and corrective humor were clearly established as two positively related, yet distinct dimensions of virtue-related humor. Metric measurement invariance was supported across the 25 samples, and scalar invariance was supported across six age groups (from 18 to 50+ years) and across gender. Comparisons of samples within and between four countries (Malaysia, Switzerland, Turkey, and the UK) showed that the item profiles were more similar within than between countries, though some evidence for regional differences was also found. This study thus supported, for the first time, the suitability of the 12 marker items of benevolent and corrective humor in different countries, enabling a cumulative cross-cultural research and eventually applications of humor aiming at the good.
    Matched MeSH terms: Virtues
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