INTERNATIONAL RESEARCH JOURNAL OF ENGINEERING & APPLIED SCIENCES
ISSN 2322-0821(E), ISSN 2394-9910(P)
An ISO 9001:2015 Certified Publication
Volume 12 Issue 2 April-June 2024
Original Article
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Examining the Significance of Communication in the Context of Future Engineers: A Comparative Analysis
DOI: 10.55083/irjeas.2024.v12i02001
Country- IRAQ
Intisar K. Saleh
PAPER ID: IRJEAS04V12I2001
Published: April 2024
Journal: IRJEAS, Volume 12, Issue 2
Pages: 01-07
Keywords: Interprofessional teamwork, communication skills, engineering education, comparative analysis and future engineers.
Abstract:
The study looks at how engineering teams may use communication to innovate, emphasising how important it is to communicate throughout the project’s ideation and implementation phases. It looks into how effective communication can encourage the exchange of ideas, spark creative thinking, and lead to the development of ground-breaking solutions for difficult technical challenges. The study also looks into how communication impacts project management practices, highlighting how crucial it is for setting clear objectives, monitoring due dates, and lowering risks. The research emphasises the critical relationship between communication skills and project performance in engineering pursuits by elucidating these connections. The ethical implications of communication in the engineering domain are also examined, with a focus on issues of honesty, integrity, and openness in interpersonal interactions. Through bringing these moral issues up in conversation, the study provides a thorough grasp of the function of communication in engineering practice and education. In order to cultivate a new generation of proficient communicators who will be able to foster innovation and growth in the sector, it also provides stakeholders in academia and industry with helpful ideas.
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Intisar K. Saleh Examining the Significance of Communication in the Context of Future Engineers: A Comparative Analysis. International Research Journal of Engineering & Applied Sciences (IRJEAS). 12(2), pp. 01-07, 2024. https://doi.org/10.55083/irjeas.2024.v12i02001.
Review Article
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The Potential and Limitations of Large Language Models for Text Classification through Synthetic Data Generation
DOI: 10.55083/irjeas.2024.v12i02002
Country- USA
Ashok Kumar Pamidi venkata, Leeladhar Gudala
PAPER ID: IRJEAS04V12I2002
Published: April 2024
Journal: IRJEAS, Volume 12, Issue 2
Pages: 08-15
Keywords: Large Language Models, Text Classification, Synthetic Data Generation, Natural Language Processing, Pretraining, Fine-tuning.
Abstract:
Large language models (LLMs), such as GPT-3 and BERT, have revolutionized the field of natural language processing (NLP), offering remarkable capabilities in text generation, translation, summarization, and classification. Among their many applications, LLMs show promise in text classification tasks, where they can automatically categorize text data into predefined categories or labels. This paper presents a comprehensive review of the potential and limitations of utilizing LLMs for text classification through synthetic data generation techniques. We delve into the methodologies employed in generating synthetic data using LLMs, which include techniques such as data augmentation, adversarial training, and transfer learning. These approaches aim to address issues of data scarcity and domain adaptation in text classification tasks. We explore their effectiveness in enhancing text classification performance, demonstrating how synthetic data can improve model generalization and robustness across diverse domains and languages. Additionally, we discuss the challenges and ethical considerations associated with synthetic data generation, including issues related to data privacy, bias amplification, and model fairness. Furthermore, we examine the impact of model size, pretraining data, and fine-tuning strategies on the performance of LLMs in text classification tasks. Recent studies have shown that larger models with access to more diverse pretraining data tend to achieve higher accuracy and better generalization on downstream tasks. Fine-tuning strategies, such as curriculum learning and self-training, can further improve model performance by adapting the model to task-specific data distributions. Through a critical analysis of existing literature and empirical studies, we provide insights into the current state-of-the-art techniques, identify key research gaps, and propose future directions for advancing the utilization of LLMs in text classification through synthetic data generation. This includes exploring novel approaches for generating diverse and representative synthetic data, developing evaluation metrics for assessing the quality of synthetic data, and investigating the long-term societal impacts of deploying LLMs in real-world applications.
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Ashok Kumar Pamidi venkata, Leeladhar Gudala. The Potential and Limitations of Large Language Models for Text Classification through Synthetic Data Generation: A Comparative Analysis. International Research Journal of Engineering & Applied Sciences (IRJEAS). 12(2), pp. 09-15, 2024.
https://doi.org/10.55083/irjeas.2024.v12i02002
Review Article
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Opinion Mining Using Hybrid Model Based on Deep Learning: Review
DOI: 10.55083/irjeas.2024.v12i02003
Country- INDIA
Jagriti Chand, Neha Lidoriya, Pooja Jayant
PAPER ID: IRJEAS04V12I2003
Published: April 2024
Journal: IRJEAS, Volume 12, Issue 2
Pages: 16-21
Keywords: Sentiment Analysis, Opinion Mining, Hybrid model, CNN, LSTM, Deep Learning.
Abstract:
In recent years, the proliferation of online platforms and social media has generated an unprecedented volume of user-generated content, including opinions and sentiments expressed across various domains. Opinion mining, also known as sentiment analysis, plays a crucial role in extracting valuable insights from this vast amount of data. This paper presents a novel approach to opinion mining utilizing a hybrid model based on deep learning techniques. The proposed model integrates the strengths of convolutional neural networks (CNNs) and recurrent neural networks (RNNs) to effectively capture both local features and long-range dependencies in textual data. By leveraging this hybrid architecture, our model demonstrates enhanced performance in sentiment classification tasks compared to traditional methods. Experimental results on benchmark datasets showcase the effectiveness and robustness of the proposed approach in accurately analyzing and classifying opinions expressed in diverse contexts. Moreover, the model’s adaptability to different domains and its ability to handle noisy or ambiguous data further solidify its utility. This hybrid model not only advances the state-of-the-art in opinion mining but also holds promise for applications in market analysis, social media monitoring, and decision-making processes across various domains, providing valuable insights for businesses, policymakers, and researchers alike.
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Jagriti Chand et. al. Opinion Mining Using Hybrid Model Based on Deep Learning: Review: A Comparative Analysis. International Research Journal of Engineering & Applied Sciences (IRJEAS). 12(2), pp. 16-21, 2024.
https://doi.org/10.55083/irjeas.2024.v12i02003
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Enhancing Intrusion Detection Performance Through Deep Learning Method
DOI: 10.55083/irjeas.2024.v12i02004
Country- INDIA
Bhawana Choudhary, Dr. P.K Sharma
PAPER ID: IRJEAS04V12I2004
Published: June 2024
Journal: IRJEAS, Volume 12, Issue 2
Pages: 22-28
Keywords: IDS, CNN, KDDCUP2003, Feature Selection, Classification
Abstract:
In the realm of cyber and data security, the field of intrusion detection systems (IDS) stands out as an area of active research. Traditional methods, such as data mining, statistical evaluation, and artificial neural networks, face significant challenges in achieving accurate intrusion detection. However, the emergence of machine learning algorithms offers promising solutions to this challenge. This paper presents a novel approach to intrusion detection, focusing on leveraging deep learning methodologies. Deep learning, as an extension of machine learning, holds the potential to enhance the accuracy of IDS. The proposed method employs a cascaded three-level convolutional neural network (CNN) architecture. Efficiency and scalability in intrusion detection hinge upon effective feature reduction. By streamlining features, the capacity for intrusion classification and attack detection is significantly enhanced. Notably, when applied to datasets like KDDCUP99 with diverse attributes, the proposed algorithm achieves a detection ratio nearing 100%, albeit with a slightly lower classification ratio due to attribute diversity. Comparative analysis demonstrates the superiority of the cascaded CNN algorithm over traditional CNN methods in both feature reduction and classification tasks. Particularly, the proposed algorithm showcases remarkable efficiency in handling dynamic attributes, thereby improving classification accuracy. the proposed approach utilizing cascaded CNN architecture presents a substantial advancement in intrusion detection and classification compared to conventional methods. Through the integration of deep learning techniques, this methodology offers a robust solution to the challenges encountered in traditional intrusion detection systems
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Bhawana Choudhary, Dr. P.K Sharma. Enhancing Intrusion Detection Performance through Deep Learning Method. A Comparative Analysis. International Research Journal of Engineering & Applied Sciences (IRJEAS). 12(2), pp. 22-28, 2024.
https://doi.org/10.55083/irjeas.2024.v12i02004
Review Article
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A Review on Improving the Socio-Economic Status of Women in Punjab
DOI: 10.55083/irjeas.2024.v12i02005
Country- INDIA
Nishant Kumar, Navdeep Kaur
PAPER ID: IRJEAS04V12I2005
Published: June 2024
Journal: IRJEAS, Volume 12, Issue 2
Pages: 29-34
Keywords: Community-based initiatives, Education, Employment, Gender equality, Health, Women's empowerment, Socio-economic status.
Abstract:
Background: This review paper examines the socio-economic status of women in Punjab, focusing on progress, persistent challenges, and effective interventions across key areas such as education, employment, health, and legal and policy frameworks.
Methods: A comprehensive analysis of existing literature was conducted to synthesize findings related to the socio-economic conditions of women in Punjab. Key themes were identified and evaluated to understand the impact of various interventions and the remaining barriers.
Results: Despite notable advancements, women in Punjab continue to face significant barriers that hinder their full participation in society. The female literacy rate has increased to 70.7%, but high dropout rates remain a concern. Employment opportunities for women are expanding through self-help groups and community-based initiatives; however, the formal employment rate for women is only 16.3%, with workplace gender biases persisting. Health indicators show improvements, with 25.9% of women anemic and a maternal mortality ratio of 122 per 100,000 live births, yet socio-economic factors still limit the effectiveness of health services. Legal and policy frameworks have advanced women’s rights, but cultural and social barriers impede their implementation.
Conclusion: The findings underscore the need for multifaceted approaches combining policy interventions, educational reforms, health improvements, and grassroots initiatives to create a supportive environment for women’s empowerment in Punjab. Continued efforts are essential to address these challenges and ensure sustainable socio-economic development for women in the region.
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Nishant Kumar, Navdeep Kaur. A Review on Improving the Socio-Economic Status of Women in Punjab. A Comparative Analysis. International Research Journal of Engineering & Applied Sciences (IRJEAS). 12(2), pp. 29-34, 2024.
https://doi.org/10.55083/irjeas.2024.v12i02005
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Deep Spotter: A Deep Learning Approach For Image Detection
DOI: 10.55083/irjeas.2024.v12i02006
Country- INDIA
Kirti Sahu, Dr. P K Sharma, Manvendra Singh
PAPER ID: IRJEAS04V12I2006
Published: June 2024
Journal: IRJEAS, Volume 12, Issue 2
Pages: 35-43
Keywords: Convolutional Neural Networks (CNN), Optimization, Detection
Abstract:
Current advancements in the digital era are characterized by the abundance of visual data, making it necessary to apply sophisticated methods for object recognition. Detecting one object in the image is easy; however, identifying several objects simultaneously is quite a tough challenge. The paper designs object recognition and proposes a solution for detecting multiple objects within the image. Among the many alternatives, Convolutional Neural Networks (CNNs) stand out as being particularly effective in solving this problem. Among the various methods used in CNNs, Deep Spotter is one that, based on the YOLO (You Only Look Once) architecture, efficiently detects objects in images by making full use of deep learning. Instead of treating object detection as a repurposed classifier, as most existing methods within a unified framework do, Deep Spotter casts it as a regression problem. It detects bounding boxes and determines class probabilities directly from entire images in a single sweep and bridges every individual step in the detection process up to that point in one neural network. It allows all steps to be end-to-end optimized and improves the performance of the detection.
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Kirti Sahu, Dr. P K Sharma, Manvendra Singh. Deep Spotter: A Deep Learning Approach For Image Detection. A Comparative Analysis. International Research Journal of Engineering & Applied Sciences (IRJEAS). 12(2), pp. 35-43, 2024. https://doi.org/10.55083/irjeas.2024.v12i02006
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Revolutionizing Power Quality: HCUPQC-DG Integrating Photovoltaics for Enhanced Reliability
DOI: 10.55083/irjeas.2024.v12i02007
Country- INDIA
Akash Dayal, Dr. Nand Lal Shah
PAPER ID: IRJEAS04V12I2007
Published: June 2024
Journal: IRJEAS, Volume 12, Issue 2
Pages: 44-57
Keywords: Unified Power Quality Conditioner (UPQC), Power Quality, Current Disturbances, Renewable Energy, Hybrid AC/DC Micro-Grids, DC Link.
Abstract:
Photovoltaic (PV) arrays and other distributed generation (DG) sources are
becoming more and more common in current power networks due to the growing
environmental concerns and energy scarcity. In distribution power systems, common
problems that affect power quality include disruptions in load current and grid voltage. The
adaptable universal power quality conditioner (UPQC) is made to concurrently reduce both
kinds of disruptions. The modern trend of increasing the efficiency and dependability of a
UPQC is to integrate DG sources, like as PV modules, at the DC link. This study presents the
hybrid linked universal power quality conditioner integrating distributed generation, or
HCUPQC-DG. The proposed HCUPQC-DG aims to stabilise the DC bus voltage by
sustaining constant, oscillation-free active power transmission during unbalanced grid
disturbances. This paper presents a comprehensive analysis of the HCUPQC-DG’s topology,
control strategies, modulation techniques, and active power flow, offering a robust solution for
modern power systems
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Akash Dayal, Dr. Nand Lal Shah. Revolutionizing Power Quality: HCUPQC-DG Integrating Photovoltaics for Enhanced Reliability. A Comparative Analysis. International Research Journal of Engineering & Applied Sciences (IRJEAS). 12(2), pp. 44-57, 2024.
https://doi.org/10.55083/irjeas.2024.v12i02007