Your search keyword '"Ahilan, A."' showing total 23 results

1. Detection of Brain Tumour Via Reversing Hexagonal Feature Pattern for Classifying Double-Modal Brain Images.

Author

Anlin Sahaya Infant Tinu, M., Appathurai, Ahilan, and Muthukumaran, N.

Subjects

*CONVOLUTIONAL neural networks, *BRAIN tumors, *POSITRON emission tomography, *DEEP learning, *BENIGN tumors

Abstract

The diagnosis of brain tumours (BT) is time-consuming and heavily dependent on the radiologists' abilities. Multiple algorithms have been developed for detecting and classifying BT that are both accurate and fast. Recent years have seen an increase in the popularity of deep learning, especially when it comes to developing automated systems that can diagnose and segment BT more accurately and with less time. In this paper, a novel Brain Hexagonal Pattern Network (BHPN) has been proposed to classify the MEG and PET images into normal, benign and malignant tumours. For pre-processing, a bilateral filter is employed to remove noise artifacts from the collected MEG and PET images. To remove the outer cortical and skull region, skull stripping is used, to be implemented to raise the volume of the training datasets. The pre-processed images are segmented using the Otsu threshold algorithm to segment the BT. These segmented tumours are taken as input to the Reversing Hexagonal algorithm to generate the hexagonal feature sets with and without a segmentation mask. In order to categorize tumours into normal, benign and malignant cases, a Spiking Dilated Convolutional Neural Network (SDCNN) classifier system is implemented. The classification accuracy of the Proposed BHPN approach is 99.54%. The Proposed BHPN approach improves the overall accuracy by 1.49%, 2.52%, and 3.93% better than hybrid deep autoencoder (DAE) and Bayesian Fuzzy Clustering (BFC), Deep CNN, and Neutrosophy and Convolutional Neural Network (NS-CNN) respectively. [ABSTRACT FROM AUTHOR]

Published

2024

2. D2D Self Organization in IOT via Triple Modular Redundancy Based MDS Code.

Author

Muthu Kumar, B., Ramamoorthi, S., Rajakumar, S., and Ahilan, A.

Subjects

SYSTEMS availability, TRUST, PLURALITY voting, FUZZY logic, DATA quality

Abstract

Device-to-Device (D2D) communication is a key enabling technology to replace base station-to-device(B2D) communication. D2D with IoT realization has spectral and energy-efficient features for on-time quality data transfer. However, the rapid growth of such networks and the dynamic quality of service demands of user equipment require robust and efficient service quality in disasters, outages, and adversarial conditions. To address this challenge, this paper proposes a triple modular redundancy based on the maximum distance separable (TMR-MDS) technique has been proposed, which modifies the repair bandwidth by utilizing more storage occupation and improving the D2D link availability in the system. The proposed TMR-MDS technique will be used, which is composed of two phases: trust management modules and triple modular redundancy storage modules. As part of the initial stage of trust management, a fuzzy logic model is employed to determine the user's trust value after the user's behaviour is examined. Second, using the majority voting scheme to improve triple modular redundancy storage. Furthermore, if any problem occurs in the node, then it will self-organize. MATLAB is used to evaluate the performance of the proposed system. The overall system performance is evaluated in terms of the network's trust level, and the communication cost of the proposed strategy. As per the experimental results, the proposed TMR-MDS method has a better performance of 12.67%, 23.68%, and 25.87% than hierarchical bi-partite, double replication MDS, and unequal repairing locality code. [ABSTRACT FROM AUTHOR]

Published

2024

3. Aquila Optimized Fuzzy Deep Belief Network for Secure Data Transmission in WSN.

Author

Jenice Prabhu, A., Ahilan, A., Vijayaraj, Alwarsamy, and Gururama Senthilvel, P.

Abstract

A wireless sensor network (WSN) is made up of several independent sensor nodes that are able to interpret, analyze, and work with data. It is generally recognized that security and limited energy are the two challenging tasks with WSNs. To address these challenges, a novel Aquila-optimized fuzzy deep belief network (AO-FDBN) model has been proposed in this paper. The suggested AO-FDBN framework consists of three stages. Initially, the Aggregator has been selected by using the Aquila optimization algorithm. Secondly, the data from the aggregator are encrypted by using the blowfish algorithm. Finally, the optimal route has been selected by using the fuzzy-deep belief network (DBN). Packet delivery ratio (PDR), transport delay, energy usage, and network lifetime are evaluated between the suggested framework and current methods. Experimental results specify that the suggested AO-FDBN approach achieves higher performance of 22.617%, 14.22%, and 15.64% than TEEFCA, HESC, and SEPC methods. This system is more effective and secure for real-time applications. [ABSTRACT FROM AUTHOR]

Published

2024

4. HOEEACR: Hybrid Optimized Energy-Efficient Adaptive Clustered Routing for WSN.

Author

Anusha, K., Ajay, P., Ramesh, M., Muthukumaran, N., Rajeshkumar, C., Sangeetha, K., Rajeshkumar, G., and Ahilan, A.

Subjects

WIRELESS sensor networks, NETWORK performance, ENERGY consumption, ENERGY function, VULTURES

Abstract

Wireless Sensor Networks have been used for sensing and gathering data about an environment from a remote location for many years in a variety of engineering applications. In WSN, nodes must overcome energy consumption to function efficiently. To resolve these issues and extend the usefulness of the network, clustering and routing algorithms are promising. One of the main issues with WSNs is that they lack restricted energy sources. To overcome this issue, a Hybrid Optimized Energy-Efficient Adaptive Clustered Routing approach (HOEEACR) has been proposed for WSNs. This paper presents the Genetic Bee Colony (GBC) Algorithm for Cluster Head Selection by considering distances to neighbors, residual energy, node degrees, and node centralities. Furthermore, an optimal routing path for the cluster heads is found by utilizing the Aquila with African Vulture Optimization (AAVO) algorithm. The AAVO optimizes network performance using residual energy, node degree, and distance. The proposed HOEEACR method has been extensively tested to ensure network lifetime and energy efficiency. According to experimental results, the proposed HOEEACR method consistently outperforms existing techniques on a variety of performance metrics. [ABSTRACT FROM AUTHOR]

Published

2024

5. SWEEPER: Secure Waterfall Energy-Efficient Protocol-Enabled Routing in FANET.

Author

Usha, M., Sathiamoorthy, J., Ahilan, A., and Mahalingam, T.

Subjects

PUBLIC key cryptography, SECURITY systems, ENERGY conservation, EMERGENCY medical services, CRYPTOSYSTEMS

Abstract

The recent advancements in ad-hoc networks have resulted in innovations like FANETs. FANETs (Flying Ad hoc Networks) have become diversified in its applications ranging from agriculture, military, emergency services etc. The FANET environment needs to be dynamic and is populated by UAVs. The highly mobile UAVs are responsible for data transmission between nodes. If unchecked, this results in packet loss. Reliable data transmission in FANETs is possible, if effective routing protocols are in place. In this research, a Secure Waterfall Energy-Efficient Protocol-Enabled Routing (SWEEPER) has been proposed which helps conserve the node energy throughout the transmission process. The framework uses a waterfall model approach which includes group key management as an underlying process governing the security aspect of the protocol. Asymmetric key cryptography is applied to our technique, which involves two unique nodes, labeled the Computed Key (CKey) and the Dissemination Key (DKey). The two nodes will generate, verify, and distribute the secret keys. This will help other nodes concentrate on transmission alone and needn't waste time in computational activities or key handling. Security breaches and malignant nodes are also handled efficiently. The nodes along the route are selected based on a trust factor, which allows our protocol to select only genuine nodes to forward packets along the discovered path. Our work is analyzed with existing protocols of FANETS like SecRIP and MDRMA. The analysis reveals that our protocol outperforms the existing protocols in terms of minimal delay, maximum energy conservation and PDR, which contributes towards a maximized throughput. [ABSTRACT FROM AUTHOR]

Published

2024

6. Specimen-specific finite element representations of implanted hip capsules.

Author

Anantha Krishnan, Ahilan, Myers, Casey A., Scinto, Michael, Marshall, Brittany N., and Clary, Chadd W.

Subjects

*STANDARD deviations, *HIP joint, *TOTAL hip replacement

Abstract

The hip capsule is a ligamentous structure that contributes to hip stability. This article developed specimen-specific finite element models that replicated internal–external (I-E) laxity for ten implanted hip capsules. Capsule properties were calibrated to minimize root mean square error (RMSE) between model and experimental torques. RMSE across specimens was 1.02 ± 0.21 Nm for I-E laxity and 0.78 ± 0.33 Nm and 1.10 ± 0.48 Nm during anterior and posterior dislocation, respectively. RMSE for the same models with average capsule properties was 2.39 ± 0.68 Nm. Specimen-specific models demonstrated the importance of capsule tensioning in hip stability and have relevance for surgical planning and evaluation of implant designs. [ABSTRACT FROM AUTHOR]

Published

2024

7. EOEEORFP: Eagle Optimized Energy Efficient Optimal Route-Finding Protocol for Secure Data Transmission in FANETs.

Author

Usha, M., Mahalingam, T., Ahilan, A., and Sathiamoorthy, J.

Subjects

NETWORK routing protocols, ENERGY levels (Quantum mechanics), COMPUTER network security, ENERGY conservation, ENERGY consumption

Abstract

This FANETs (Flying Adhoc NETworks) are supported by UAVs (Unmanned Aerial Vehicles) which carry out the task of transmitting and receiving data. Transmission and routing are complicated by the highly mobile AUVs. Node links are temporary and may result in transmission related issues. FANETs are prone to network attacks, especially black hole attacks leading to heavy data loss. This may lead to packet drops which might compromise the transmitted data. The proposed Eagle Optimized Energy Efficient Optimal Route-Finding Protocol (EOEEORFP) selects an efficient route towards the destination. Factors like trust degree, priority queue, network delay, hop count and energy consumption levels are taken into consideration in designing the routing strategy. These factors help in identifying the nodes that form the trusted nodes in the routing path. This is achieved by employing the biological behavior of eagles in finding their prey. The suggested protocol works in two stages. In the initial stage, it sets up an optimal route with selective nodes (trusted nodes). In the second stage, the network security is fortified by eradicating black hole attacks by using RREP (Route Reply) packets strategically. The EOEEORFP protocol assures the successful data delivery by employing a trusted routing path. The proposed EOEEORFP protocol is assessed against Adhoc On demand Distance Vector (AODV) and AODV-V2 protocols to measure its performance. EOEEORFP achieves very good PDR and throughput while conserving the network energy by minimizing the network delay. [ABSTRACT FROM AUTHOR]

Published

2024

8. Tetra Optimization Based Hybrid Parameters for OFDM Modulated Wireless Sensor Network.

Author

Priya Iyer, K. B., Ramesh, S., Sathiamoorthy, J., and Ahilan, A.

Subjects

ORTHOGONAL frequency division multiplexing, OPTIMIZATION algorithms, ENERGY consumption, SEARCH algorithms, KNOWLEDGE transfer, WIRELESS sensor networks

Abstract

Orthogonal frequency-division multiplexing [OFDM] is an information transfer technique in which a single data flow is divided between several closely spaced narrowband subchannel frequency range rather than a single Wideband channel frequency. The information is sent to the relay node there is a delay and some data is lost in the relay node is the major issue in the existing system. To overcome these challenges, The objective of this study is to minimize the overall energy consumption and to maximize the network lifetime. In this paper, a novel Five Input Hybrid Optimization Relay Node Selection and Energy Efficient Routing (FIHORNSEER) technique has been proposed for choosing the best relay based on noises. Ant Lion Optimization (ALO) is initially utilized to select the relay node's elite position. Secondly, the Crow Search Optimization (CSO) Algorithm is used for the phenomenon of position and memory of each relay. Finally, the Memetic Algorithm (MA) was generated by integrating the Ant Lion and Crow search optimization algorithm for the best relay node selection. The proposed framework is compared with previous techniques like FRNSEER, LMMSE, and HABO-OFDM Methods in terms of performance analysis, such as average utility, Energy Consumption, and Network Life Time. The result shows that the proposed FIHORNSEER improves the energy consumption better than 22.01%, 16.4%, and 12.2% FRNSEER, LMMSE, and HABO-OFDM, respectively. [ABSTRACT FROM AUTHOR]

Published

2024

9. Slime Mould Algorithm based Fuzzy Linear CFO Estimation in Wireless Sensor Networks.

Author

Prabhu, M., Muthu Kumar, B., and Ahilan, A.

Subjects

MYXOMYCETES, TELECOMMUNICATIONS services, CHIEF financial officers, FUZZY algorithms, ENERGY consumption

Abstract

Orthogonal Frequency-Division Multiplexing (OFDM) is a form of digital systems and a way of encoding digital data across multiple frequency components that is used in telecommunication services. Carrier Frequency Offset (CFO) inaccuracy is a serious disadvantage of OFDM. In this research, Fuzzy based Slime Mould optimization for CFO (FSM-CFO) has been proposed. The proposed FSM-CFO not only estimates the CFO with increased precision, but also allocates resources effectively, achieving maximum utilization of dynamic resources. Initially, Slime Mould Algorithm is utilized to extract the precise CFO. Additionally, the base station (BS) manages the Resource Units (RU), which could be used to distribute resources in such a manner that the user-requests are met. The resources are assigned using fuzzy rules, with the type of resource that is most appropriate for the nodes that have requested the resources being chosen. To assign resources to a certain job, fuzzy rules are devised. Once the residence time for the duration has passed, the highest-priority tasks receive the specific resources. Finally, experiments are carried out to demonstrate the effectiveness of the proposed method. The performance of the proposed method is evaluated in terms of Resource utilization, failure rate, life span, and energy consumption. According to the simulated results, the suggested configuration can perform better compared to the existing techniques. [ABSTRACT FROM AUTHOR]

Published

2024

10. Public perceptions of rainwater harvesting (RWH): comparing users and non-users of RWH systems.

Author

Snelling, Andrea M., Lamond, Jessica, Everett, Glyn, O'Donnell, Emily C, Ahilan, Sangaralingam, and Thorne, Colin

Subjects

PUBLIC opinion, MUNICIPAL water supply, IMPLICIT attitudes, WATER harvesting, RAINWATER, SUBCONSCIOUSNESS, WATER conservation

Abstract

The UK's abundant municipal water supply has resulted in slow progress with the uptake of rainwater harvesting (RWH) systems within the home. Research has indicated that exploring public preferences for domestic RWH are necessary for increasing demand. Here, we use explicit and implicit tests to investigate public perceptions of RWH for non-potable uses, and compare perceptions of respondents with and without domestic RWH systems. RWH is perceived positively by most respondents indicating an openness and acceptance of this technology (and/or lack of strong negative attitudes). Implicit attitudes are generally more positive than explicit, especially in respondents with RWH systems, implying that the positivity is deep-seated in their subconsciousness. We also reveal differences between subconscious (implicit) beliefs and practical difficulties (explicit opinions). Outdoor uses of rainwater are preferred, hence, more work in promoting indoor uses is needed to maximise the resource potential of UK rainfall and uptake of RWH systems. [ABSTRACT FROM AUTHOR]

Published

2024

11. Classification of Cervical Cancer Using an Autoencoder and Cascaded Multilayer Perceptron.

Author

Akhila, K.R., Muthukumaran, N., and Ahilan, A.

Subjects

CERVICAL cancer, TUMOR classification, PAP test, ADAPTIVE filters, FEATURE extraction

Abstract

Cervical cancer is the most frequent and potent form of cancer in women. The complications caused by it can be avoided if it is detected and treated promptly. In oncology, artificial intelligence has improved the prediction accuracy in the preliminary stages of cervical cancer. In this work, a novel machine learning-based approach is introduced to predict and categorize the healthy and anomalous cervical cells. Initially, an adaptive median filter is utilized to eliminate the noise artefacts in the pap smears from the Herlev dataset. The auto-encoder (AE) is employed to extract the features and reduce the dimension of features to progress the training process. Consequently, a cascaded multilayer perceptron (c-MLP) is employed for the classification of the normal and abnormal cervical cells. The c-MLP was trained using the Bayesian Regulation algorithm to generate the best classification accuracy of 97.63%. As a result, the classification using the c-MLP is more accurate and effective for classifying healthy and malignant cervical cells than the classic ML classifiers. The proposed ML-based framework progresses the overall accuracy range by 3.61%, 4.40%, 5.07%, and 4.66% better than SVM, XGB, RF, and DT, respectively. [ABSTRACT FROM AUTHOR]

Published

2024

12. An Improved Metaheuristic Method-Based Neural Network for Predicting Wind Turbine Power.

Author

Ahilan, T., Yoganand, S., and Prasad, D. V. S. S. S. V.

Subjects

*WIND turbines, *OPTIMIZATION algorithms, *RENEWABLE energy sources, *WIND power, *METAHEURISTIC algorithms, *SUPERVISORY control systems, *INDUCTION generators

Abstract

Wind power production has advanced rapidly in recent years as a supreme renewable energy source that is safe, reliable, pollution-free, and simple to integrate into the power grid. Furthermore, employing data acquisition and supervisory control to predict wind turbine power may not result in the best governing approach, as non-calibrated data may be generated due to sensor degradation. Hence, to solve the adverse impact, it's planned to incorporate the wind turbine Supervisory Control and Data Acquisition (SCADA) data into the improved optimization based NN, resulting in the development of a highly accurate prediction model. Thus, SCADA data of the wind turbine such as active power, bearing shaft, gear box shearing, gear box oil temperature, generator rpm, generator windings 1 and 2, hub temperature, reactive power, rotor rpm and wind speed are fed as input features to the predictive model. In order to achieve better prediction, the NN will be trained by using a new Coefficient Factor Updated Coyote Optimization Algorithm (CFU-COA), which is the conceptual advancement of traditional Coyote Optimization Algorithm (COA). Finally, the supremacy of the presented approach is proved with respect to varied error measures. [ABSTRACT FROM AUTHOR]

Published

2023

13. Video compression using improved diamond search hybrid teaching and learning-based optimization model.

Author

Veerasamy, B., Bharathi, B., and Ahilan, A.

Subjects

VIDEO compression, DIAMONDS, VIDEO processing, OPTICAL flow, COMPUTATIONAL complexity, GLOBAL optimization, IMAGE compression

Abstract

Video compression is necessary to recreate a video without sacrificing quality. Nowadays, researchers are focusing on global optimization approaches to determine the optical flow of the neighboring pixels in video processing. In this work, a novel improved diamond search-hybrid teaching-learning based optimization (IDS-HTLBO) methodology has been proposed to compress the videos and increase the video quality. This method uses a diamond search pattern with a secure number of search points for per frame of the video. The hybridization of DS algorithm and TLBO algorithm are applied in this methodology to reduce computational complexity. Moreover, this method reduces the computational unpredictability of block matching. The quality of the image was validated with 3D reconstruction by the structured light approaches. The experimental result shows that the proposed IDS-HTLBO algorithm achieves a maximum average value of 53.17 dB, 0.44 and 11.57 in terms of peak-to-signal-noise ratio, mean squared error, and compression ratio respectively. [ABSTRACT FROM AUTHOR]

Published

2023

14. EPO Optimized FLC Controller for PQ Improvement in Wind Integrated Power Distribution System.

Author

Subanth Williams, A., Mani Malar, R. Suja, and Ahilan, T.

Subjects

WIND power, OPTIMIZATION algorithms, FUZZY logic, PUBLIC utilities

Abstract

Nowadays, Power Quality (PQ) problems are economically affecting customers and utilities. In our work, the PQ problems are mitigated using the Unified Power Quality Conditioner (UPQC) and the proposed controller. Fuzzy Logic Controller (FLC) and Emperor Penguin Optimization algorithm (EPO) are utilized to design the proposed controller. The proposed control scheme analyses the PQ issues of harmonics, oscillatory transients, swell, and voltage sag. The optimized FLC controller-based UPQC compensates the PQ problems at a common coupling point. Using the decomposition technique, the Total Harmonic Distortion (THD) and harmonics are moderated, and the voltages sag and swell problem is minimized to improve the compensation capability. The MATLAB/SIMULINK platform is utilized to evaluate the performances of PQ issues in UPQC compensating devices. The generated, injected, and load voltages results are compared with existing controller techniques. [ABSTRACT FROM AUTHOR]

Published

2023

15. FMTM-feature-map-based transform model for brain image segmentation in tumor detection.

Author

Sundarasekar, Revathi and Appathurai, Ahilan

Published

2023

16. The incidence and prevalence of unruptured intracranial aneurysms in sickle cell disease patients: a systematic review.

Author

Essiet, Edidiong, Shapey, Jonathan, and Kailaya-Vasan, Ahilan

Subjects

SICKLE cell anemia, DATA libraries

Abstract

Unruptured Intracranial Aneurysms (UIAs) pose a significant risk of morbidity in the general population and much more so among sickle cell disease (SCD) patients. Meanwhile, the proportion of these patients with UIAs is not established just as the course and characteristics of the aneurysms are not well known. To estimate the prevalence, incidence and characteristics of UIAs in SCD patients and compare same with the metrics and features in the general population. The Data repositories, Medline (PubMed), Embase and Web of science were systematically searched from January 1st, 1990, to July 31st, 2021. Publications that passed an inclusion test were reviewed for data on the incidence and prevalence of UIAs, aneurysm characteristics and outcomes in SCD patients extracted. Findings from the included studies were appraised, using the Methodological Index for Non-randomized studies score (MINORS). The results were descriptively analysed. Given the marked heterogeneity of retrieved data, results were reported as standardized values, including the mean weighted annual incidence rate. 105 SCD patients with 186 UIAs were identified in 10 retrospective studies. Mean age ranged from 10.5 to 40.18 across studies with adult (>18 years) predominance. The prevalence of UIAs in SCD was 4.1% (95%CI 3.6 and 4.6) incidence rate was 1290.3/100,000 patient-years (95% CI 1018.0–1562.6). Aneurysms tended to be small (60%), anterior (76.1%), multiple (45.7%), and managed conservatively (62%) with mostly good outcomes (95%). The average MINORS score was 9.4 ± 3.1 for non-comparative studies (n = 8) and 19.5 ± 0.7 for comparative studies (n = 2). UIAs have a definite relationship with SCD, with higher incidence figures relative to the general population. Aneurysmal characteristics although largely similar, tend to be smaller in SCD patients. The low methodological quality of reviewed studies informs the need for well-designed prospective randomized controlled studies to better understand the mechanics of this relationship. [ABSTRACT FROM AUTHOR]

Published

2022

17. Effect of monoterpene ester from Blumea axillaris (Lam.) DC and its acetyl derivative against plant pathogenic fungi and their in silico molecular docking.

Author

Sivanandhan, Subramaniyan, Pathalam, Ganesan, Antony, Stalin, Michael, Gabriel Paulraj, Balakrishna, Kedike, Boovaragamurthy, Ahilan, Shirota, Osamu, Alwahibi, Mona S, El-Shikh, Mohamed Soliman, and Ignacimuthu, Savarimuthu

Subjects

PHYTOPATHOGENIC fungi, PATHOGENIC fungi, WILT diseases, RHIZOCTONIA solani, ESTERS, ASPERGILLUS niger

Abstract

The present study was aimed to isolate active constituents from Blumea axillaris (Lam.) DC (Asteraceae) against phytopathogenic fungi. Bioactivity guided fractionation of the successive n-hexane, chloroform and methanol extract led to the isolation of the monoterpene ester (4 R,5S)-4-hydroxy-7-tigloyloxycarvotanacetone (1). The compound 1 was converted into acetyl derivative (2). The acetyl derivative (2) and the parent compound 1 were tested again phytopathogenic fungi by using mycelial inhibition and minimal inhibitory concentration values were found out by the broth microdilution method. The acetyl derivative (2) showed the highest antifungal activity against Rhizoctonia solani and Aspergillus niger. Based upon in vitro results, compound 1 was tested against Fusarium oxyporum (wilting disease) and compound 2 was tested against R. solani (leaf blight disease) in vivo using the foliar spray method. Both compounds had no phytotoxicity and also in silico docking study showed that both compounds were binding similarly as commercial fungicide carbendazim. [ABSTRACT FROM AUTHOR]

Published

2021

18. Fostering Soft Skills: Habitat Youth Leaders.

Author

Kopardekar, Abhay, Gedipudi, Vikram, Karuppasami, Ahilan, and Gupta, Vasaav

Subjects

CURRICULUM, PROBLEM solving, LEADERSHIP, CRITICAL thinking, DIGITAL literacy

Abstract

The article presents the discussion on students greatly benefiting from a curriculum stressing 21st-century soft skills from a young age. Topics include focusing on educating children on soft skills such as problem-solving, leadership, and critical thinking as well as life skills such as email writing; and seminars focusing on multiple topics such as financial literacy, critical thinking, collaborative skills, and internet literacy.

Published

2021

19. Effect of Thermal Ablation at the Fluid-Solid Interface of a Hypersonic Reentry Vehicle in Rarefied Flow Regime.

Author

Appar, Ahilan and Kumar, Rakesh

Subjects

*HYPERSONIC planes, *ABLATIVE materials, *AERODYNAMIC heating, *HEAT flux, *ENTHALPY, *THERMAL analysis

Abstract

The present work aims to develop a coupled flow-thermal solver to study atmospheric reentry phenomenon in the rarefied regime. Conjugate thermal analysis is performed for a charring ablative material by coupling a direct simulation Monte Carlo flow solver with an in-house material thermal response solver at the fluid-solid interface. The coupling is achieved by exchanging and updating the interface properties (convective heat flux and wall temperature) between the two solvers in a loosely coupled manner at certain anchor points along the reentry trajectory. Iterative and non-iterative coupling techniques are studied in this work and discussed. The effect of introducing pyrolysis gas at the interface in a loosely coupled flow-thermal analysis is studied by applying a blowing correction function to the heat flux obtained using iterative method. The results show that the blowing gas has an appreciable effect in reducing the surface heat flux that can significantly impact the TPS design. [ABSTRACT FROM AUTHOR]

Published

2021

20. SERAV Deep-MAD: Deep Learning-Based Security–Reliability–Availability Aware Multiple D2D Environment.

Author

Ingle, Rahul, Selvi, C. S. Kanimozhi, Ahilan, A., Muthukumaran, N., Sharma, Sanjiv, and Kumar, M.

Abstract

The tremendous growth of internet-connected devices can lead to network congestion, making it essential to incorporate new technologies to optimize performance. Thus, Device to Device(D2D) communication has been deemed as an emerging technology that can be used to communicate efficiently. However, establishing a secure and reliable mechanism for Device-to-Device (D2D) communication that ensures security, reliability, and availability poses a significant challenge. To tackle these issues a novel deep learning-based security-reliability-availability aware multiple D2D environment (SERAV Deep-MAD) has been proposed for Secure D-2-D Communication in a Fog environment. The proposed method utilizes a Fully Homomorphic Quantum Diffie Hellman Encryption (FHQDHE) to secure the data while transmitting. The proposed method utilizes the novel secure Quantum Diffie Hellman key exchange (QDHKE) technique for sharing the key to transform the plain data into cipher data, then applies FH operations on the encrypted data before transferring it to the Fog environment. Whenever a client requests data from the Fog, the Fog provider verifies the client's access rights. Moreover, the Attention-based Bi-GRU model is utilized to categorize whether the device is non-attack or attack, if the data is attacked then the proposed model classifies multiple attacks. The NS2 Simulator is used to verify and validate the proposed SERAV Deep-MAD model, and resiliency analysis is done to assess performance. The proposed techniques attain a higher accuracy of 98.18% which is 1.58%, 2.02%, and 2.41% better than MECC, MIMO, andAAKA-D2D respectively. [ABSTRACT FROM AUTHOR]

Published

2024

21. Recognition of brain stroke shape using multiscale morphological image processing.

Author

Venkata Lakshmi, S., Anline Rejula, M., Sujatha, K., and Ahilan, A.

Subjects

CONVOLUTIONAL neural networks, IMAGE processing, MAGNETIC resonance imaging, CEREBRAL arteries, SIGNAL-to-noise ratio

Abstract

Brain haemorrhage is a form of stroke caused by the inflation in the cerebral artery ensuing confined bleeding in the inherent tissues. The MRI images (T1, T2 and FLAIR (fluid-attenuated inversion recovery)) are extracted from Siemen 3T scanner in which the ordinary and haemorrhage-affected strokes are effectively emphasized in this work. The existing such as CNN (convolutional neural network), residual CNN and MCDNN (mobile-cloud deep neural network) are compared from the perspective of PSNR (peak signal-to-noise ratio), SSIM (structural similarity index measure) and MSE (mean squared error), respectively. The PSNR value of this proposed MMNN (multiple nonotonic neural network) is increased by 0.23%, 0.087% and 0.613% compared to CNN, Residual CNN and MCDNN techniques, respectively. The SSIM value is increased by 0.57%, 0.322% and 0.027% compared to CNN, Residual CNN and MCDNN. MSE value is decreased by 8.93%, 2.1457% and 0.316% compared to CNN, Residual CNN and MCDNN, respectively. [ABSTRACT FROM AUTHOR]

Published

2021

22. Proposal for a prospective multi-centre audit of chronic subdural haematoma management in the United Kingdom and Ireland.

Author

Coulter, Ian C., Kolias, Angelos G., Marcus, Hani J., Ahmed, Aminul I., Alli, Saira, Al-Mahfoudh, Rafid, Borg, Anouk, Cowie, Christopher J. A., Hill, Ciaran S., Joannides, Alexis J., Jones, Timothy L., Kailaya-Vasan, Ahilan, Livermore, James L., Narayanamurthy, Harsha, Ngoga, Desire, Shapey, Jonathan, Tarnaris, Andrew, Gregson, Barbara A., Gray, William P., and Nelson, Richard J.

Subjects

HEMATOMA, NEUROLOGICAL nursing, REPORTING of diseases, MORTALITY, ELDER care, DIAGNOSIS

Abstract

Background. Chronic subdural haematoma (CSDH) is a common condition that increases in incidence with rising age. Evacuation of a CSDH is one of the commonest neurosurgical procedures; however the optimal peri-operative management, surgical technique, post-operative care and the role of adjuvant therapies remain controversial. Aim. We propose a prospective multi-centre audit in order to establish current practices, outcomes and national benchmarks for future studies. Methods. Neurosurgical units (NSU) in the United Kingdom and Ireland will be invited to enrol patients to this audit. All adult patients aged 16 years and over with a primary or recurrent CSDH will be eligible for inclusion. Outcome measures and analysis. The proposed outcome measures are (1) clinical recurrence requiring re-operation within 60 days; (2) modified Rankin scale (mRS) score at discharge from NSU; (3) morbidity and mortality in the NSU; (4) destination at discharge from NSU and (5) length of stay in the NSU. Audit standards have been derived from published systematic reviews and a recent randomised trial. The proposed standards are clinical recurrence rate < 20%; unfavourable mRS (4-6) at discharge from NSU < 30%; mortality rate in NSU < 5%; morbidity rate in NSU < 10%. Data will be submitted directly into a secure online database and analysed by the study's management group. Conclusions. The audit will determine the contemporary management and outcomes of patients with CSDH in the United Kingdom and Ireland. It will inform national guidelines, clinical practice and future studies in order to improve the outcome of patients with CSDH. [ABSTRACT FROM AUTHOR]

Published

2014

23. 5G Network with Hexagonal SDN Control for Highly Secure Multimedia Communication.

Author

Malathy, E. M., Sathya, V., David, Preetha Evangeline, Ajitha, P., Noora, V. T., and Ahilan, A.

Subjects

*SOFTWARE-defined networking, *TECHNOLOGICAL innovations, *MULTIMEDIA communications, *TELECOMMUNICATION systems, *WIRELESS communications

Abstract

The 5G communication network is a promising technology that offers user-centric connectivity to customers, enabling quick, high-capacity, and latency-free access to many applications. Software Defined Networking Controller (SDNC) is an emerging technology that is used for increasing the security and maintaining the dynamic nature of mobile devices in latency and energy-assured 5G wireless communication. Different SDN topology open flow controllers are used in the literature for increasing the throughput and security of the network but they possess some drawbacks such as frequent location update (LU) overhead, high latency, and high energy consumption. This paper proposes a hexagonal software defined network (H-SDN) controller to overcome these challenges. The proposed H-SDN topology is used to preserve Intermediate Message Layer (IML) location during multimedia data transmission. A Core Switch (CS) updates an IML's location within clusters of cells, as long as it remains within the cluster. However, in the proposed method, there will be a location update on the server if the IML departs the cluster. Experiment results show that the proposed method can increase security, which in turn increases throughput, while reduces the location update costs, energy consumption, and transmission latency. [ABSTRACT FROM AUTHOR]

Published

2024