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Harmeet Kaur Kang,Arshdeep Kaur,Shania Saini,Rayees Ahmad,Wani Shubhleen Kaur 숙명여자대학교 아시아여성연구원 2022 Asian Women Vol.38 No.2
Maternal health improvement is one of the main targets of India's national health programs; however, maternal mortality reduction has not yet reached satisfactory levels. Maternal health outcomes depend on the health literacy of pregnant women. The exploration of areas in which women seek information can help in a better understanding of their health information needs. A cross-sectional study assessed health information-seeking behavior during pregnancy, health information resources used, and related barriers perceived by rural women in North India. Rural women who were pregnant or had a live birth in the past six months (N=100) were selected using purposive sampling techniques from five selected villages in the Patiala district of Punjab state, India. The majority were aged 26–30 years and reported dependence on their husbands and family members in choosing sources of health information. They reported doctors, nurses, and the Internet as valuable resources for seeking health information during pregnancy. The essential topics on which women seek information are fetal growth, delivery setting, body changes during pregnancy, and other related concerns. Women reported the significant barriers to important health information as long queues and inconvenient service hours during antenatal check-ups in health settings. The findings of the study point toward the need for strengthening and improving the existing services for availability of verified and reliable information, education and communication (IEC) resources, and maternal services in the public health sector.
Theoretical prediction of thermal and electronic properties of metal-organic frameworks
Harmeet Kaur,Shashank Sundriyal,Virendra Kumar,Amit L. Sharma,김기현,Bo Wang,Akash Deep 한국공업화학회 2019 Journal of Industrial and Engineering Chemistry Vol.80 No.-
Computational studies on metal-organic frameworks (MOFs) have immensely helped researchersoptimize their performance through the prediction and elucidation of different physical/chemicalphenomena. This article discusses the recent advances in the applications of computational methods forthe analysis of electronic and thermal properties of MOFs based on the theoretical calculations of theirproperties like band gap, conductivity, thermal expansion coefficient, heat capacity, thermalconductivity, and entropy. This review article is thus expected to help researchers in related researchareas explore different simulation tools for prediction and verification of MOF-related experimental data.
Design and Simulation of Novel 10-T Subtraction Logic for ALU Design using GDI Technique
Haramardeep Singh,Harmeet Kaur 보안공학연구지원센터 2016 International Journal of Hybrid Information Techno Vol.9 No.2
Design based upon CMOS logic are becoming increasingly attractive for many applications under electronic gadgets, but with increasing demand of small and portable devices, new techniques for low power are emerging. This paper focus on the design of subtarction logic for ALU sub-module in microprocessor design. Set of four different 10-T subtraction logic using Gate Diffusion Index(a new technique for low power design) has been designed using 180nm technology using Cadence Virtuoso and simulation are performed . Complete verification for performance of proposed subtraction logic is carried and circuit with least power and delay has been selected for the ALU design of the microprocessor. Layout design for the best optimum ciruit is designed using Layout XL and area of 17.28 X 11.135 μm2 is calculated.
Design and Simulation of Novel 10-T Subtraction logic for ALU design using GDI Technique
Haramardeep Singh,Harmeet Kaur 보안공학연구지원센터 2015 International Journal of Hybrid Information Techno Vol.8 No.10
Design based upon CMOS logic are becoming increasingly attractive for many applications under electronic gadgets, but with increasing demand of small and portable devices, new techniques for low power are emerging. This paper focus on the design of subtarction logic for ALU sub-module in microprocessor design. Set of four different 10 -T subtraction logic using Gate Diffusion Index(a new technique for low power design) has been designed using 180nm technology using Cadence Virtuoso and simulation are performed . Complete verification for performance of proposed subtraction logic is carried and circuit with least power and delay has been selected for the ALU design of the microprocessor. Layout design for the best optimum ciruit is designed using Layout XL and area of 17.28 X 11.135 m2 is calculated.
Design and Simulation of Novel 10-T Subtraction Logic for ALU Design Using GDI Technique
Haramardeep Singh,Harmeet Kaur 보안공학연구지원센터 2015 International Journal of Hybrid Information Techno Vol.8 No.7
Design based upon CMOS logic are becoming increasingly attractive for many applications under electronic gadgets, but with increasing demand of small and portable devices, new techniques for low power are emerging. This paper focus on the design of subtarction logic for ALU sub-module in microprocessor design. Set of four different 10-T subtraction logic using Gate Diffusion Index(a new technique for low power design) has been designed using 180nm technology using Cadence Virtuoso and simulation are performed . Complete verification for performance of proposed subtraction logic is carried and circuit with least power and delay has been selected for the ALU design of the microprocessor. Layout design for the best optimum ciruit is designed using Layout XL and area of 17.28 X 11.135 um2 is calculated.
A novel framework to improve the performance of crowdfunding platforms
Jaya Gera,Harmeet Kaur 한국통신학회 2018 ICT Express Vol.4 No.2
This work presents a framework for evaluating and promoting campaigns that are launched over a crowdfunding platform. Campaigns are evaluated on the basis of campaign features and pledge performance. To promote a campaign, a recommender model is designed that filters campaigns to be promoted using association rule mining and based on backer’s interests. Framework also assesses creators’ using their past records and their profile text. This system deals with the issues faced by three stakeholders of crowdfunding and strives to satisfy their requirements and maximizes the utility of tool.
Sundriyal, Shashank,Kaur, Harmeet,Bhardwaj, Sanjeev Kumar,Mishra, Sunita,Kim, Ki-Hyun,Deep, Akash Elsevier 2018 Coordination chemistry reviews Vol.369 No.-
<P><B>Abstract</B></P> <P>Metal-organic frameworks (MOFs) belong to a novel class of materials with several advantages (e.g., ultrahigh porosity, tunable pore size distribution, convenience of synthesis, and structural tailor-ability). However, the insulating nature of MOFs is often recognized as a limiting factor in the extension of their applications, especially in electronic fields. In light of such limitations, various functional or conductive materials have been mixed/intercalated with MOFs to improve their potential for such applications (e.g., rechargeable batteries, optoelectronics, and supercapacitors). Lately, many of these composite materials have been recognized as next-generation electrodes for the development of efficient supercapacitors. In this review article, we have critically reviewed the recent advancements in supercapacitor applications of MOFs and their derived composite structures. Further, we have also discussed the application of various categories of electrolytes (e.g., aqueous, organic, ionic liquids, solid-state, and redox electrolytes) and their impacts on the development of MOF-based supercapacitors.</P> <P><B>Highlights</B></P> <P> <UL> <LI> State of the art information on the applications of MOF-based supercapacitor is explored. </LI> <LI> Recent advances in MOF-based supercapacitor applications have also been discussed. </LI> <LI> The role of electrolytes in the MOF-electrodes for supercapacitors has been discussed. </LI> <LI> Performance of MOF-composites is reviewed in terms of important supercapacitor parameters. </LI> </UL> </P> <P><B>Graphical abstract</B></P> <P>[DISPLAY OMISSION]</P>