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Rae Francis C. Quilantang ; Kimberly Nicole Panis Quilantang Academy of Mobility Humanities 2024 Mobility Humanities Vol.3 No.1
This essay explores the cultural significance of jeepney art and symbolism in the Philippines, especially within the ongoing Public Utility Vehicle Modernisation Program (PUVMP). Employing insights from automobility studies, it investigates how these cultural symbols distinctly reflect and shape Filipino identities and narratives. Through semiotic analysis a variety of motifs reveal values, aspirations, and social realities unique to Filipino culture. The article also emphasises the role of jeepneys as essential components of the Philippines’ unique transportation system, and as integral elements of both urban landscapes and social interactions. This aspect is further elaborated by considering the potential cultural implications of the jeepney modernisation program. The discussion underscores the importance of understanding the socio-political dimensions of this transformation. Moreover, the paper brings to light the critical need for further research into these socio-cultural impacts. This is particularly relevant as the modernization program progresses, potentially altering the traditional jeepney landscape. Concluding, the paper suggests that future modernisation efforts in the Philippines should thoughtfully consider preserving cultural heritage. This could involve incorporating traditional jeepney art into the design of new vehicles, symbilising an important balance between modernisation and cultural preservation. This signifies the importance of balancing modernisation with cultural preservation, a theme echoed in urban mobility studies.
Pani, Alok,Thanh, Tran Duy,Kim, Nam Hoon,Lee, Joong Hee,Yun, Soon-Il IET 2016 IET nanobiotechnology Vol.10 No.6
<P>Sustainable methods are needed for rapid and efficient detection of environmental and food pollutants. The Sudan group of dyes has been used extensively as adulterants in food and also are found to be polluting the soil and water bodies. There have been several methods for detection of Sudan dyes, but most of them are not practical enough for common use. In this study, the electrochemical detection efficiency and stability of gold nanoparticle (AuNPs), silver NPs and Au Ag bionanocomposites, synthesised by peanut skin extract, modified glassy carbon electrode has been investigated. The synthesised nanomaterial samples were characterised, for their quality and quantity, using ultra visible spectroscopy, inductive coupled plasma mass spectrophotometer, Fourier transform infrared spectroscopy, energy-dispersive X-ray spectroscopy, high-resolution transmission electron microscope and field emission scanning electron microscope. The nanomaterial hybrid electrodes showed great efficiency and stability in the detection of Sudan IV compared with the other previous electrodes. The peak current of the Sudan IV oxidation and reduction was found to be proportional to its concentration, in the range of 10-80 mu M, with a detection limit of 4 mu M. The hybrid electrodes showed 90% stability in detection for 20 cycles.</P>
A NEW MIXED FINITE ELEMENT METHOD FOR BURGERS' EQUATION
Pany, Ambit Kumar,Nataraj, Neela,Singh, Sangita 한국전산응용수학회 2007 Journal of applied mathematics & informatics Vol.23 No.1
In this paper, an $H^1-Galerkin$ mixed finite element method is used to approximate the solution as well as the flux of Burgers' equation. Error estimates have been derived. The results of the numerical experiment show the efficacy of the mixed method and justifies the theoretical results obtained in the paper.
A Novel Approach for Mobile Native App Development Using Ontological Design
Sasmita Pani,Jibitesh Mishra 보안공학연구지원센터 2016 International Journal of Software Engineering and Vol.10 No.9
Mobile devices are different from desktop based systems in terms of particular execution environment, limited resources, small size and high mobility requirement. Various agile based methodologies are developed for mobile applications such as Mobile-D, Scrum, and MASAM etc. These methodologies are used in building mobile apps. Some of web engineering models or methodologies such as WebE, OOHDM and WebML are also used for developing web apps. But these methodologies are used only for designing web apps but not for mobile apps. These web and mobile apps development models don’t provide structured and semantic representation of data. They don’t provide knowledge of a set of concepts which are relationally arranged with each other. Due to this representation of a particular data is not structured and hence the efficiency of its retrieval is ineffective. These mobile app development methodologies retrieve information from semantic web resources. But they are not concerned with semantic design of data for a mobile native app. Using ontology, data and their properties are arranged and organized in terms of classes, subclasses and object properties. For this propose, Web otology language (OWL) is used for modelling the classes, their subclasses and object properties. OWL DL provides various class axioms and property axioms for modelling data in a structured and semantic manner. The aim of this paper is to develop a model based approach that takes three main components in 3D approach such as context, generic ontology and developments phases for designing mobile application in a semantic way. Depending upon the semantic design, the mobile app will be developed so the user can get meaningful data. This paper also validates the entire 3D model using hypothesis testing against
The role of hydrogen bonding in water-mediated glucose solubility in ionic liquids
Kim, H.S.,Pani, R.,Ha, S.H.,Koo, Y.M.,Yingling, Y.G. Elsevier 2012 Journal of molecular liquids Vol.166 No.-
The restriction of low solubility of glucose in ionic liquids (IL) can be overcome by mixing an aqueous glucose solution into ILs. In this paper, the change in molecular interactions between glucoses in [Emim][TfO] system as a result of the presence of water molecules was explored using all-atoms molecular dynamics simulations. The water molecules initially located around glucose molecule are rapidly uptaken by anions and most of the water shell around glucose is replaced by anions. The presence of monodispersed water at low concentration leads to the increased mobility of the system components and higher solubility of glucose in water-mediated [Emim][TfO] than that in [Emim][TfO]. Our simulations show that water acts as a solubility enhancer which disrupts glucose-glucose interaction and enhances glucose-solvent (water and [TfO]<SUP>-</SUP>) interaction, resulting in higher glucose solubility. Hydrogen bonding network between glucose, water and [TfO]<SUP>-</SUP> molecules is a key driving force in the dissolution process of glucose in water-mediated ILs.
A new mixed finite element method for Burgers' equation
Neela Nataraj,Ambit Kumar Pany,Sangita Singh 한국전산응용수학회 2007 Journal of applied mathematics & informatics Vol.23 No.1
In this paper, an H1-Galerkin mixed finite element method is used to approximate the solution as well as the flux of Burgers’ equation. Error estimates have been derived. The results of the numerical experiment show the efficacy of the mixed method and justifies the theoretical results obtained in the paper.