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1. Intelligent resource management in 5G/6G network by adopting edge intelligence for higher education systems

Author

Saurabh Chandra, Rajeev Arya, and Maheshwari Prasad Singh

Subjects
Device-to-Device Communication, Intelligent Resource Management, Energy Consumption, Latency, Social Internet of Educational Things, Power consumption, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

The Internet of Things (IoT) is expected to have a positive impact on various sectors, such as manufacturing, users, and operators. Due to the capabilities of smart objects to share their contents and interact with their social networks, the combined Social Internet of Educational Things (SIoET) for smart education is expected to provide users with more efficient services. The primary objective of this paper is to provide an efficient resource management by adopting edge intelligence technique for higher education system workloads on next-generation networks. As the number of tasks handled by these interconnected devices continues to rise, there is an escalating concern regarding resource competition and power consumption within the network. To mitigate these challenges, we propose an innovative edge intelligence-based resource allocation approach to intelligently allocate resources while minimizing latency and optimizing power consumption with increasing task volumes. The problem is dissected into two core sub-problems: computation resource optimization and power optimization. Leveraging the concept of Lagrangian and Bisection methods, our proposed algorithm, implemented within a Device-to-Device (D2D) -assisted edge intelligence network, demonstrates remarkable performance improvements. Network latency and energy consumption is reduced by up to 57.9 % and 82.3 % compared to the benchmark schemes. These findings hold promising implications for the integration of this work into higher education systems driven by SIoET. Furthermore, simulations indicate that the system maintains robust performance even in dynamic urban environments characterized by random device movement.

Published
2024
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2. Telehealth Evaluation in the United States: Protocol for a Scoping Review

Author

Yunxi Zhang, Yueh-Yun Lin, Lincy S Lal, Jennifer C Reneker, Elizabeth G Hinton, Saurabh Chandra, and J Michael Swint

Subjects
Medicine, Computer applications to medicine. Medical informatics, R858-859.7
Abstract

BackgroundThe rapid expansion of telehealth services, driven by the COVID-19 pandemic, necessitates systematic evaluation to guarantee the quality, effectiveness, and cost-effectiveness of telehealth services and programs in the United States. While numerous evaluation frameworks have emerged, crafted by various stakeholders, their comprehensiveness is limited, and the overall state of telehealth evaluation remains unclear. ObjectiveThe overarching goal of this scoping review is to create a comprehensive overview of telehealth evaluation, incorporating perspectives from multiple stakeholder categories. Specifically, we aim to (1) map the existing landscape of telehealth evaluation, (2) identify key concepts for evaluation, (3) synthesize existing evaluation frameworks, and (4) identify measurements and assessments considered in the United States. MethodsWe will conduct this scoping review in accordance with the Joanna Briggs Institute (JBI) methodology for scoping reviews and in line with the PRISMA-ScR (Preferred Reporting Items for Systematic Reviews and Meta-Analyses extension for Scoping Reviews). This scoping review will consider documents, including reviews, reports, and white papers, published since January 1, 2019. It will focus on evaluation frameworks and associated measurements of telehealth services and programs in the US health care system, developed by telehealth stakeholders, professional organizations, and authoritative sources, excluding those developed by individual researchers, to collect data that reflect the collective expertise and consensus of experts within the respective professional group. ResultsThe data extracted from selected documents will be synthesized using tools such as tables and figures. Visual aids like Venn diagrams will be used to illustrate the relationships between the evaluation frameworks from various sources. A narrative summary will be crafted to further describe how the results align with the review objectives, facilitating a comprehensive overview of the findings. This scoping review is expected to conclude by August 2024. ConclusionsBy addressing critical gaps in telehealth evaluation, this scoping review protocol lays the foundation for a comprehensive and multistakeholder assessment of telehealth services and programs. Its findings will inform policy makers, health care providers, researchers, and other stakeholders in advancing the quality, effectiveness, and cost-effectiveness of telehealth in the US health care system. Trial RegistrationOSF Registries osf.io/aytus; https://osf.io/aytus International Registered Report Identifier (IRRID)DERR1-10.2196/55209

Published
2024
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3. Malicious anchor node extraction using geodesic search for survivable underwater wireless sensor network

Author

Prateek, T. Srinivasa Reddy, Saurabh Chandra, Rajeev Arya, and Ajit Kumar Verma

Subjects
Medicine, Science
Abstract

Abstract Localization in underwater wireless sensor network (UWSN) faces an imminent threat when the triangulating anchor node starts to malfunction. Traditional geometric approaches are insufficient to cope with the survivability of UWSN topology. To address these issues, this paper presents a symplectic geometry for identification of the malicious anchor node. Consequently, a geodesic search algorithm (GSA) based Target localization is proposed which reduces the positioning error by exploiting the phase-space constancy of the underwater acoustic sensor network topology to effectively triangulate the target node despite its mobility. First, a malicious anchor node model is presented. The node movement is expressed in the form of “ripple region”. GSA is then proposed which effectively frees the node metastasis from anchor node geometry, thereby making the underwater system more survivable and resilient. Simulation results evaluate the survivability of the geodesic formalism in terms of the reduced penalty incurred by node movement, as well as the reduced impact of anchor node malfunction. An improvement of 13.46% and 9.26% reveals the utility of the geodesic technique in aquamarine sensor deployments, which would be beneficial in underwater resource exploration and defense planning.

Published
2022
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4. QSPCA: A two-stage efficient power control approach in D2D communication for 5G networks

Author

Saurabh Chandra, Prateek, Rohit Sharma, Rajeev Arya, and Korhan Cengiz

Subjects
device-to-device (d2d), interference, internet of things (iot), machine learning, power control, q-learning, support vector machine (svm), 5g, Telecommunication, TK5101-6720
Abstract

The existing literature on device-to-device (D2D) architecture suffers from a dearth of analysis under imperfect channel conditions. There is a need for rigorous analyses on the policy improvement and evaluation of network performance. Accordingly, a two-stage transmit power control approach (named QSPCA) is proposed: First, a reinforcement Q-learning based power control technique and; second, a supervised learning based support vector machine (SVM) model. This model replaces the unified communication model of the conventional D2D setup with a distributed one, thereby requiring lower resources, such as D2D throughput, transmit power, and signal-to-interference-plus-noise ratio as compared to existing algorithms. Results confirm that the QSPCA technique is better than existing models by at least 15.31% and 19.5% in terms of throughput as compared to SVM and Q-learning techniques, respectively. The customizability of the QSPCA technique opens up multiple avenues and industrial communication technologies in 5G networks, such as factory automation.

Published
2021
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5. Evaluation of Node-Metastasis in Sparse Underwater Acoustic Sensor Networks for Localization Under Acoustically Stratified Malicious Node Conditions

Author

Prateek, Kundan Kumar, Krishna Pandey, Saurabh Chandra, and Rajeev Arya

Subjects
Underwater sensor localization, compressive acoustic sensing, sound speed stratification, insertion function, malicious anchor node, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

Malicious anchor node is a serious issue in underwater sensor networks. This problem gets compounded under sparse deployment scenario. To overcome this issue, the authors present a Compressed Sensing for Malicious node Compensation theorem (abbreviated as CS-MC Theorem) which would be applicable to underwater localization. To counter malicious node behavior, CS-MC Theorem is justified through three lemmas. For underwater acoustic propagation, a specific L1-norm minimization method is derived. It describes the condition for unique localization of target by discretizing the target search space. Malicious node is identified by inserting the anchor nodes into the discretized grid. An insertion vector concept is introduced to determine the extent of node metastasis. Derivations are performed to prove the mathematical basis of the proposed algorithm under acoustically stratified and unstratified scenarios. Numerical results establish the feasibility of CS-MC algorithm for sparse underwater acoustic sensor network.

Published
2021
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6. Collaboration Between Tele-ICU Programs Has the Potential to Rapidly Increase the Availability of Critical Care Physicians—Our Experience Was During Coronavirus Disease 2019 Nomenclature

Author

Saurabh Chandra, MD, PhD, Craig Hertz, DO, FCCP, FACEP, FAAEM, Hargobind Khurana, MD, and Martin E. Doerfler, MD

Subjects
Medical emergencies. Critical care. Intensive care. First aid, RC86-88.9
Abstract

Objectives:. Implement a connected network between two Tele-ICU programs to support staffing and rounding during the first wave of the coronavirus disease 2019 pandemic in the United States. Design:. Proof of Concept model. Setting:. Northwell Health; a 23 Hospital, 40 ICU (500 ICU beds) healthcare organization serving the downstate NY area. During the initial coronavirus disease 2019 pandemic, Northwell Health rapidly expanded to greater than 1,000 ICU beds. The surge in patients required redeployment of noncritical care providers to the ICU bedside. The Tele-ICU program expanded from covering 176 beds pre pandemic to assisting with care for patients in approximately 450 beds via deployment of Wi-Fi-enabled mobile telehealth carts to the newly formed ICUs. Patients:. Critically ill coronavirus disease 2019 patients hospitalized at Northwell Health, NY, at any point from March 2020 to June 2020. Interventions:. To offset the shortage of critical care physicians, Northwell Health established a collaboration with the Tele-ICU program of Providence, St. Joseph Health in the state of Washington, which enabled the critical care physicians of Providence, St. Joseph Health to participate in virtual rounding on critically ill coronavirus disease 2019 patients at Northwell Health. Main Results:. We developed an innovative hybrid model that allowed for virtual rounding on an additional 40–60 patients per day by a remote critical care physician at Providence, St. Joseph Health. This was accomplished in approximately 3 weeks and provided remote care to complex patients. Conclusions:. Our findings demonstrate the proof of concept of establishing a network of connected Tele-ICU programs as a rapidly scalable and sustainable paradigm for the provision of support from critical care physicians for noncritical care teams at the bedside.

Published
2021
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7. Stereo-Electronic Factors Influencing the Stability of Hydroperoxyalkyl Radicals: Transferability of Chemical Trends across Hydrocarbons and ab initio Methods

Author

Kandpal, Saurabh Chandra, Otukile, Kgalaletso P., Jindal, Shweta, Senthil, Salini, Matthews, Cameron, Chakraborty, Sabyasachi, Moskaleva, Lyudmila V., and Ramakrishnan, Raghunathan

Subjects
Physics - Chemical Physics
Abstract

The hydroperoxyalkyl radicals (.QOOH) are known to play a significant role in combustion and tropospheric processes, yet their direct spectroscopic detection remains challenging. In this study, we investigate molecular stereo-electronic effects influencing the kinetic and thermodynamic stability of a .QOOH along its formation path from the precursor, alkylperoxyl radical (ROO.), and the depletion path resulting in the formation of cyclic ether + .OH. We focus on reactive intermediates encountered in the oxidation of acyclic hydrocarbon radicals: ethyl, isopropyl, isobutyl, tert-butyl, neopentyl, and their alicyclic counterparts: cyclohexyl, cyclohexenyl, and cyclohexadienyl. We report reaction energies and barriers calculated with the highly accurate method Weizmann-1 (W1) for the channels: ROO. <=> .QOOH, ROO. <=> alkene + .OOH, .QOOH <=> alkene + .OOH, and .QOOH <=> cyclic ether + .OH. Using W1 results as a reference, we have systematically benchmarked the accuracy of popular density functional theory (DFT), composite thermochemistry methods, and an explicitly correlated coupled-cluster method. We ascertain inductive, resonance, and steric effects on the overall stability of .QOOH and computationally investigate the possibility of forming more stable species. With new reactions as test cases, we probe the capacity of various ab initio methods to yield quantitative insights on the elementary steps of combustion., Comment: Final version, major revision. SI is enclosed

Published
2023
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15. An Effective Parking Management and Slot Detection System

Author

Pandey, Saurabh Chandra, Yadav, Vinay Kumar, Bohra, Rajesh Singh, Tiwari, Upendra Kumar, Kacprzyk, Janusz, Series Editor, Gomide, Fernando, Advisory Editor, Kaynak, Okyay, Advisory Editor, Liu, Derong, Advisory Editor, Pedrycz, Witold, Advisory Editor, Polycarpou, Marios M., Advisory Editor, Rudas, Imre J., Advisory Editor, Wang, Jun, Advisory Editor, Mallick, Pradeep Kumar, editor, Bhoi, Akash Kumar, editor, Barsocchi, Paolo, editor, and de Albuquerque, Victor Hugo C., editor

Published
2022
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18. Semi-orthogonal Parseval wavelets associated to GMRAs on local fields of positive characteristics

Author

Shukla, Niraj K., Maury, Saurabh Chandra, and Mittal, Shiva

Subjects
Mathematics - Functional Analysis, 42C40, 42C15, 43A70, 11S85
Abstract

In this article we establish theory of semi-orthogonal Parseval wavelets associated to generalized multiresolution analysis (GMRA) for the local field of positive characteristics (LFPC). By employing the properties of translation invariant spaces on the core space of GMRA we obtain a characterization of semi-orthogonal Parseval wavelets in terms of consistency equation for LFPC. As a consequence, we obtain a characterization of an orthonormal (multi)wavelet to be associated with an MRA in terms of multiplicity function as well as dimension function of a (multi)wavelet. Further, we provide characterizations of Parseval scaling functions, scaling sets and bandlimited wavelets together with a Shannon type multiwavelet for LFPC., Comment: 21 pages

Published
2015

23. Assessing Telemental Health Uptake and Associated Health Care Resource Implications among Mississippi Medicaid Enrollees with Major Depression.

Author

Zhang, Yunxi, Peña, Maria T., Lal, Lincy S., Lin, Yueh-Yun, Summers, Richard L., Saurabh, Chandra, and Swint, J. Michael

Subjects
EMERGENCY room visits, HEALTH equity, HEALTH policy, MEDICAL care, MEDICAID
Abstract

Objective: Investigate the association between Telemental Health (TMH) uptake and sociodemographic characteristics, and how TMH uptake relates to health care resource utilization and Medicaid expenditures among Mississippi Medicaid enrollees with major depression. Methods: A retrospective cohort study was conducted (2019–2020), comparing those who utilized TMH and those who did not. Results: Among the 21,239 identified enrollees, 806 (3.79%) utilized TMH. The TMH cohort was more likely to be of older age, non-Hispanic White, comprehensive managed care organization enrollees, rural residents, and from areas with a higher area deprivation index, and have higher Charlson comorbidity index scores. The TMH cohort also exhibited higher mental health-related and all-cause outpatient and emergency department utilization, along with higher Medicaid expenditures. Conclusion: As the first study investigating telehealth utilization among Mississippi Medicaid enrollees, this study highlights sociodemographic disparities in telehealth adoption. Addressing barriers hindering telehealth adoption among vulnerable populations and ensuring the availability of quality data are vital for future research. [ABSTRACT FROM AUTHOR]

Published
2024
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24. Familial Presentation of Dentin Dysplasia Type-I in siblings: A Case report.

Author

Bahadure, Pranali B., Puranik, Bhakti, Chavan, Mahesh, Pawar, Saurabh Chandra, Kamble, Dhanashree, and Shinde, Priya

Subjects
DENTIN, DYSPLASIA, ORAL drug administration, TEETH, PERIODONTITIS, SIBLINGS
Abstract

Dentin dysplasia is a rare genetic condition with autosomal inheritance. In this case study, we report a male and female patient who are siblings, diagnosed with dentin dysplasia type I. They were the first affected generations in their family. The diagnosis of dentin dysplasia type I was confirmed based on the clinical and radiographic features. Dentin dysplasia I has distinctive radiographic features that differentiate it from other dentin developmental disorders. Since periodontitis and root morphology can cause early exfoliation of teeth, the goal is to provide preventive treatment for optimal oral function. [ABSTRACT FROM AUTHOR]

Published
2024

33. Case Article—Route Planning at an Animal Husbandry Department

Author

Saurabh Chandra and Sanjay Choudhari

Subjects
Supply chain management, 05 social sciences, 050301 education, 010501 environmental sciences, Management Science and Operations Research, Animal husbandry, 01 natural sciences, Education, Management Information Systems, Supply chain modeling, Operations management, Business, Route planning, 0503 education, Livestock management, 0105 earth and related environmental sciences
Abstract

The case provides an opportunity for undergraduate, graduate, and doctoral students to demonstrate a practical application of supply chain modeling in the area of livestock management for a group of rural communities in India. An animal husbandry department needs to ensure timely replenishment of liquid nitrogen to several livestock locations to preserve semen straws, which are frozen for artificial insemination. The department wishes to explore a possible route redesign for cost reduction. The description in the case, as well as the presented data, is based on a real project undertaken by the authors. The case enables students to conceptualize and design sample routes manually to meet the cost objective. However, the main objective is to make students understand and implement solution heuristics for large-scale vehicle routing problems. It also allows students to compare various designs trying not only possible vehicle capacities but also three solution heuristics. Nevertheless, students can also realize the importance of the spreadsheet as a decision support tool for evaluating several options by integrating the chosen heuristic. An important milestone of the case project was the implementation of our recommendations by the animal husbandry department.

Published
2022
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35. Leveraging Stereo-Electronic Factors for ab initio Design of Long-lived Hydroperoxyalkyl Radicals

Author

Kandpal, Saurabh Chandra, Otukile, Kgalaletso P., Jindal, Shweta, Senthil, Salini, Matthews, Cameron, Chakraborty, Sabyasachi, Moskaleva, Lyudmila V., and Ramakrishnan, Raghunathan

Subjects
Chemical Physics (physics.chem-ph), Physics - Chemical Physics, FOS: Physical sciences
Abstract

In this study, we investigate the stability of hydroperoxyalkyl radicals, .QOOH, in terms of various stereo-electronic effects stemming from molecular structural features. These radicals are known to play a significant role in combustion and tropospheric processes, yet their direct spectroscopic detection remains challenging. While the thermodynamic stability of .QOOH depends on its relative energy with respect to its precursor, (alkylperoxyl radical, ROO.), and the dissociation products (cyclic ethers + .OH), its kinetic stability is decided by favorable energy barriers along the formation/depletion paths. We utilize quantitatively precise ab initio methods to determine net energies and barriers for the reaction channels: ROO. .QOOH, ROO. alkene {+} OOH, .QOOH alkene {+} OOH, and .QOOH cyclic ether {+} .OH. We focus on free radical reactive intermediates derived from the oxidation of acyclic hydrocarbon radicals: ethyl, isopropyl, isobutyl, tertiarybutyl, neopentyl, and their alicyclic counterparts: cyclohexyl, cyclohexenyl, and cyclohexadienyl. We ascertain the individual contributions from inductive, resonance, and steric effects towards the overall stability of $\cdot$QOOH and rationally design more stable species with potentially long lifetimes suitable for their spectroscopic detection., Version 1

Published
2023

38. Characterization of Lantana camara roots (Pentacyclic Triterpenoid)and Mutagenicity Testing of extracted Oleanolic acid Using Salmonella typhimurium

Author

Navika Gupta Navika Gupta, Saurabh Chandra Saurabh Chandra, Anu T.Singh Anu T Singh, and Manu jaggi Manu Jaggi

Abstract

Objective The objective of the present study was to isolate oleanolic acid from the roots of Lantana camara, and characterize it chemically using DSC, HPLC, and FTIR methods, and additionally carrying out a short term assay for assessment of its mutagenic potential by conducting bacterial reverse mutation test to evaluate the ability of the “Oleanolic acid (Pentacyclic Triterpenoid)” to induce point mutations in tester strains of Salmonella typhimurium in both presence and absence of exogenous metabolic activation system (S9) containing microsomal enzymes. Methods Differential scanning calorimetry (DSC), High Performance Liquid chromatography (HPLC), and Fourier transform infrared (FTIR) spectrometers were used to chemically analyze the isolated molecule. Oleanolic acid was utilized to carry out Preliminary Cytotoxicity and mutagenicity study. Results According to the results of spectrophotometric research, oleanolic acid extracted from Lantana camara roots exhibits identical spectrum characteristics to standard oleanolic acid also the mutagenic potential of Oleanolic acid (Pentacyclic Triterpenoid). Oleanolic acid was found to be non-mutagenic in all five test strains of Salmonella typhimurium—TA98, TA100, TA102, TA1535, and TA1537 employing plate incorporation assays Conclusion It may be determined that oleanolic acid isolated from Lantana camara roots gives identical, identifiable signals and absorbance like previously reported reference standard based on the results of DLC, HPLC, and FTIR spectra and their interpretation and was determined that oleanolic acid purified from Lantana camara roots is non-mutagenic in Salmonella typhimurium.

Published
2022
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39. LOAD-CARRYING CAPACITY OF PIVOTED CURVED SLIDER BEARINGS SUBJECT TO SURFACE ROUGHNESS PATTERN AND NON-NEWTONIAN FLUID FLOW BEHAVIOR.

Author

Rahul, Amit Kumar, Singh, Manoj Kumar, Sivaya, Om Namah, Maury, Saurabh Chandra, Tiwari, Ravi, and Biswas, Rohahn

Subjects
NON-Newtonian flow (Fluid dynamics), NON-Newtonian fluids, MATHEMATICAL physics, REYNOLDS equations, FLUID flow
Abstract

The present paper analyzes the Rabinowitsch fluid (RF) behavior on a pivoted curved slider with surface roughness (SR) with the aid of the perturbation technique. In order to account for the random roughness of the bearing surfaces, a stochastic random variable with a nonzero mean, variance, and skewness was taken into consideration. The averaged Reynolds equation (RE) was developed using a stochastic random variable. The load carrying capacity (LCC) and centre of pressure (COP) were obtained by solving the relevant stochastically averaged RE with appropriate boundary conditions. Bearing performance was observed to suffer as a result of transverse SR; nevertheless, the bearing system's efficiency can be increased in the case of negatively-skewed SR. It was demonstrated that, unlike a traditional lubricant, the bearing can withstand a LCC even in the absence of flow. The outcomes of the current paper can be helpful in various modern mathematical physics engineering applications. [ABSTRACT FROM AUTHOR]

Published
2024
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42. Contributors

Author

Wan Nazwanie Wan Abdullah, Charles Oluwaseun Adetunji, Takashiro Akitsu, Prakash Chandra, Murthy Chavali, Asmita Das, Wadazani Dauda, Shakira Ghazanfar, Divya Goel, null Harshulika, Abel Inobeme, Prabir Kumar Kulabhusan, Cansu İlke Kuru, Humma Niaz Malik, Priyanshi Maurya, Abhijit Mitra, Maumita Das Mukherjee, Gunjan Nagpure, Daisuke Nakane, Nur Atiqah Nasir, Vanya Nayak, Tolulope Oladosu, Olugbemi T. Olaniyan, Peter Onyebuagud, Nao Otani, Jhansi Lakshmi Parimi, R. Kumar Pramod, Shakilur Rahman, Kumar Rakesh Ranjan, null Ritu, Salmiah Jamal Mat Rosid, Sarina Mat Rosid, Gunjan Sachdeva, Soumi Sadhu, Pracheta Salunkhe, Arpit Sand, Deenan Santhiya, Saurabh Chandra Saxena, Amarendra Pratap Singh, Bhupendra Pratap Singh, Jay Singh, Kshitij RB Singh, Ram Lakhan Singh, Ravindra Pratap Singh, Pratima R. Solanki, Shruti Sounkaria, Saurabh Srivastava, Shrinkhala Srivastava, Sudhanshu Tripathi, Darshini Trivedi, Ceren Türkcan, Jaya Tuteja, Fulden Ulucan-Karnak, Damini Verma, Ranjana Verma, Smita Rastogi Verma, Shivani Vohra, and Amit K. Yadav

Published
2023
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46. Malicious anchor node extraction using geodesic search for survivable underwater wireless sensor network

Author

null Prateek, T. Srinivasa Reddy, Saurabh Chandra, Rajeev Arya, and Ajit Kumar Verma

Subjects
Multidisciplinary
Abstract

Localization in underwater wireless sensor network (UWSN) faces an imminent threat when the triangulating anchor node starts to malfunction. Traditional geometric approaches are insufficient to cope with the survivability of UWSN topology. To address these issues, this paper presents a symplectic geometry for identification of the malicious anchor node. Consequently, a geodesic search algorithm (GSA) based Target localization is proposed which reduces the positioning error by exploiting the phase-space constancy of the underwater acoustic sensor network topology to effectively triangulate the target node despite its mobility. First, a malicious anchor node model is presented. The node movement is expressed in the form of “ripple region”. GSA is then proposed which effectively frees the node metastasis from anchor node geometry, thereby making the underwater system more survivable and resilient. Simulation results evaluate the survivability of the geodesic formalism in terms of the reduced penalty incurred by node movement, as well as the reduced impact of anchor node malfunction. An improvement of 13.46% and 9.26% reveals the utility of the geodesic technique in aquamarine sensor deployments, which would be beneficial in underwater resource exploration and defense planning.

Published
2022
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48. Evaluation of Node-Metastasis in Sparse Underwater Acoustic Sensor Networks for Localization Under Acoustically Stratified Malicious Node Conditions

Author

null Prateek, Kundan Kumar, Krishna Pandey, Saurabh Chandra, and Rajeev Arya

Subjects
sound speed stratification, General Computer Science, Underwater sensor localization, compressive acoustic sensing, malicious anchor node, General Engineering, insertion function, General Materials Science, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

Malicious anchor node is a serious issue in underwater sensor networks. This problem gets compounded under sparse deployment scenario. To overcome this issue, the authors present a Compressed Sensing for Malicious node Compensation theorem (abbreviated as CS-MC Theorem) which would be applicable to underwater localization. To counter malicious node behavior, CS-MC Theorem is justified through three lemmas. For underwater acoustic propagation, a specific L1-norm minimization method is derived. It describes the condition for unique localization of target by discretizing the target search space. Malicious node is identified by inserting the anchor nodes into the discretized grid. An insertion vector concept is introduced to determine the extent of node metastasis. Derivations are performed to prove the mathematical basis of the proposed algorithm under acoustically stratified and unstratified scenarios. Numerical results establish the feasibility of CS-MC algorithm for sparse underwater acoustic sensor network.

Published
2021

49. A Review on Nanoparticles of Co-Trimoxazole

Author

Saurabh Chandra Mishra

Abstract

With the growth in antimicrobial resistance by infectious microbes poses a severe concern for human health worldwide. There is an exponential trend in the overall incidence of such antibiotic resistant bacteria were observed in the past several decades. Researchers were continuously taking efforts on developing approaches over employing the pursuit of an effective antimicrobial agents emphasising on molecules which could be approved clinically and can be applied for latter stages of development for treating against such antimicrobial resistant species. Cotrimoxazole is one such wonder drug which belongs to the category of broad spectrum antimicrobial. They are effective when administered in vitro against a wide array of microorganisms. Their application in medical field has roughly spanned over a decade now. Still there are numerous approaches that were developed for improving their effectiveness towards their antimicrobial activity. The hybridized NGs antimicrobial properties based on NG kind & microbial conditions. Hybrid nanogels has elevated the need of lowermost inhibition concentration (MIC). The therapeutic drug were inserted constitute DDS, cross-linked networks of amphiphilic polymers with composed NGs, as displayed unique properties are biodegradability and biocompatibility, as well as confer improved stability of drug and reduced drug-mediated cytotoxicity. However, maximum within 1 hour killing bacterial efficiency, if bacteria are exposed to hybridized NGs along with minor Ag NPs whereas agitating the medium. These outcomes recommend that NG properties along with antibacterial activity may be modified through changing content of lysozyme. In this review article, a detailed. In this review article, the Historical perspectives with regards to Co-trimaxazole, Their mechanism of action and resistance, spectrum of activity, and preeminent members of each class are discussed and most importantly on the preparation of nanogels for Co-trimaxazole.

Published
2022
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50. Efficient resource utilization scheme for real-time IoT application for D2D communication: A distance and power-driven based approach

Author

Krishna Pandey, Saurabh Chandra, and Rajeev Arya

Subjects
General Engineering
Abstract

Device-to-Device (D2D) communication provides real-time functioning support for IoT applications using fifth-generation (5G) technologies. In an In-band underlay D2D model, resource allocation is a key issue. To overcome this issue, a distance and power-driven model is proposed. A mathematical problem is formulated with the main objective is to maximizing the spectral efficiency of the network. This work utilizes the concept of distributed processing for achieving our goal. First of all, we proposed a distance and power-driven based resource allocation mechanism (DPRAM) for the improvement in spectral efficiency by mitigating D2D and interference between the base station and D2D users. Then, the applicability of the proposed work has been checked by using the Sigmoidal and Logarithmic based utility functions for the delay tolerance device and real-time IoT application respectively. Simulation results show that the proposed work is capable of providing the best solution as compared to random allocation methods and pure ALOHA by 63.41% and 95.12% and 60% and 96% improvement in system capacity. Analysis of performance parameters such as sigmoidal and logarithmic utility function approves that our proposed approach may be suitable for delay tolerant and real-time applications, such as connected healthcare systems, smart farming, smart grid, etc.

Published
2023
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