Papers by Iqtiar M Siddique
JOURNAL OF Firewall Software and Networking (e-ISSN: 2584-1750), 2024
The increasing deployment of satellites for essential applications necessitates robust anomaly de... more The increasing deployment of satellites for essential applications necessitates robust anomaly detection to maintain their operational integrity. Traditional methods, which depend on manual monitoring and predefined thresholds, often prove inadequate in the complex space environment. This paper investigates the application of Artificial Intelligence (AI) algorithms to improve the detection and analysis of anomalous behavior in on-orbit satellites. AI, especially through machine learning (ML) and deep learning (DL), provides advanced capabilities for processing extensive telemetry data and identifying intricate patterns. By leveraging historical data, AI systems can establish normal operational parameters and detect deviations indicating potential anomalies. Techniques such as supervised and unsupervised learning are employed to develop models with high predictive accuracy. Furthermore, AI facilitates root cause analysis by correlating anomalies with operational conditions or external factors, enabling effective corrective measures. The integration of AI also promotes autonomous satellite operations, which are crucial for deep-space missions. This advancement enhances satellite reliability and safety, supporting sustainable and progressive space exploration. In this research, machine learning algorithms were employed to develop the proposed anomaly detection system. The system aims to detect subtle failures in the spacecraft’s attitude dynamics system, particularly in the reaction wheel subsystem, by learning solely from the spacecraft's nominal behavioral data. The system was developed from a small satellite's attitude dynamics control system, which may exhibit bearing failures in the reaction wheels. Two types of anomaly detection systems were introduced: a two-sided learning anomaly detection system and a one-sided learning anomaly detection system. For this study, a two-sided learning anomaly detection system was developed using the Logistic Regression (LR) method. This provided a foundation for the training process using a machine learning approach. By learning from both nominal and failure behaviors of the satellite, the system was designed to detect small reaction wheel friction failures effectively.
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European Journal of Advances in Engineering and Technology, 2023
This paper explores the critical role of systems engineers in the requirements engineering proces... more This paper explores the critical role of systems engineers in the requirements engineering process, emphasizing their contribution to the successful development of complex systems. Systems engineers act as the bridge between stakeholders and technical teams, ensuring that requirements are accurately captured, analyzed, and translated into actionable specifications. Their involvement is crucial in defining clear, feasible, and traceable requirements, which serve as the foundation for the entire project lifecycle. By integrating technical expertise with a deep understanding of stakeholder needs, systems engineers help mitigate risks, avoid costly rework, and ensure that the final system aligns with the intended goals. They play a key role in managing changes to requirements, balancing conflicting interests, and maintaining a focus on the system's overall objectives. The paper also discusses the methodologies and tools used by systems engineers to enhance the requirements engineering process, such as model-based systems engineering (MBSE) and requirements management software. Ultimately, the systems engineer's role is essential in driving the successful realization of complex projects, ensuring that they meet both technical and business objectives.
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European Journal of Advances in Engineering and Technology, 2020
This paper presents a comprehensive exploration of advanced network systems and engineering, focu... more This paper presents a comprehensive exploration of advanced network systems and engineering, focusing on the integration of Layer-2 switching, Layer-3 routing, and the evolving architectures of digital networks. The study begins with a detailed examination of the fundamental principles underlying Layer-2 and Layer-3 technologies, highlighting their critical roles in network performance and reliability. It then delves into the architectural considerations and design strategies that optimize these technologies for current and future digital environments. The discussion extends to emerging trends in network access systems, emphasizing performance optimization, scalability, and security in increasingly complex and heterogeneous networks. By bridging foundational network engineering with cutting-edge developments, this paper provides a unified framework for understanding and advancing network systems in the digital era. Through case studies and theoretical analyses, the research offers insights into the practical applications of Layer-2/3 technologies within modern networks, proposing new directions for innovation and development. The findings aim to guide both practitioners and researchers in designing robust, future-proof network architectures that meet the demands of the ever-evolving digital landscape.
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European Journal of Advances in Engineering and Technology, 2019
This research explores the multifaceted nature of software systems engineering by emphasizing the... more This research explores the multifaceted nature of software systems engineering by emphasizing the integration of qualitative factors throughout the software development lifecycle. This research provides a framework for analyzing, designing, and implementing complex software projects with a focus on maintainability, extensibility, reusability, and robustness. The study combines both top-down and bottom-up design approaches, enabling students to select and apply the most suitable methods based on technology, project duration, risk levels, and customer expectations. The research incorporates a Work Integrated Learning (WIL) experience, simulating industrial software engineering projects to bridge theoretical knowledge with practical application. Students gain hands-on experience in managing and executing software projects while receiving industry feedback to enhance their skills. The course covers essential IT concepts and project management principles, equipping students with the tools needed to succeed in the software engineering industry. This comprehensive approach ensures that graduates are well-prepared for real-world challenges in software development.
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Journal of Scientific and Engineering Research, 2016
This Papers offers a comprehensive exploration of digital design, blending foundational concepts ... more This Papers offers a comprehensive exploration of digital design, blending foundational concepts with advanced techniques to address modern high-speed applications. This paper begins with an introduction to digital logic design, offering clear explanations of basic concepts such as Boolean algebra, combinational and sequential circuits, and timing analysis. It then delves into the Verilog hardware description language, guiding readers through essential coding practices and simulation strategies. As the content progresses, more complex topics are introduced, including design optimization, power management, and high-speed design techniques. The research also covers critical aspects of digital system design, such as timing closure, signal integrity, and verification methodologies, ensuring robust and reliable implementations. Numerous examples, practical exercises, and real-world case studies illustrate the application of Verilog in designing high-performance digital systems. This research is an invaluable resource for students, engineers, and professionals looking to enhance their knowledge and skills in digital system design, enabling them to tackle the challenges of modern electronic design with confidence.
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Journal of Scientific and Engineering Research, 2017
Network Access Systems play a pivotal role in connecting customers to digital networks through di... more Network Access Systems play a pivotal role in connecting customers to digital networks through diverse communication technologies such as optical fiber, copper, wireless, and satellite. This study offers a comprehensive exploration of Network Access Communication, focusing on issues related to network architecture, design, material selection, performance analysis, and emerging growth areas. Students will delve into the trade-offs between bandwidth and quality across various Network Access communication modes and gain familiarity with National Broadband Network technologies including GPON, HFC, VDSL2, 4G LTE, Wi-Fi, and satellite systems. The research aims to equip students with extensive knowledge about the components of a Network Access System, including customer premise equipment, the digital local loop, and network management. Emphasis is placed on understanding fundamental operating principles and configuring equipment for common industry scenarios. The curriculum described includes Work Integrated Learning (WIL) experience, offering hands-on application of knowledge in real or simulated workplace settings, enriched by industry feedback.
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Journal of Scientific and Engineering Research, 2015
This study provides a foundational understanding of Network Engineering, with a focus on Layer-2 ... more This study provides a foundational understanding of Network Engineering, with a focus on Layer-2 switching and Layer-3 routing as essential components of the Internet's infrastructure. It is designed to equip students with fundamental knowledge in IP technology, including switching, IP addressing, and internet routing protocols. Through a combination of theoretical instruction and hands-on lab work, students will gain the skills necessary to configure and manage state-of-the-art networking devices, such as routers and switches. The research aims to develop high levels of technical competence, problem-solving abilities, and a deep understanding of the engineering principles that underpin network technologies. Upon completion, students will not only be able to describe the operation of the Internet in detail but will also be prepared to pursue further specialization within the field. Additionally, this paper serves as a steppingstone for students aiming to achieve industry-recognized certifications through the Juniper Networks Certification Program. The course ensures that students are well-prepared for the challenges and demands of contemporary engineering practice in the networking domain.
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INTERNATIONAL JOURNAL OF PROGRESSIVE RESEARCH IN ENGINEERING MANAGEMENT AND SCIENCE (IJPREMS), 2024
This comprehensive paper investigates the application of the Unified Architecture Framework (UAF)... more This comprehensive paper investigates the application of the Unified Architecture Framework (UAF) in the strategic planning processes of modern enterprises. UAF provides a structured methodology that aligns business objectives with IT infrastructure, facilitating a cohesive and integrated approach to strategic planning across various organizational levels. By employing UAF, enterprises can systematically address complex interdependencies and ensure that all aspects of the business are synchronized towards common goals. The study begins by outlining the fundamental principles of UAF, emphasizing its role in bridging the gap between business strategy and IT capabilities. It highlights how UAF's modular and flexible framework allows enterprises to tailor their strategic planning processes to their unique needs, ensuring that all relevant stakeholders are involved and that their inputs are considered in the decision-making process. Through detailed case analyses, the paper demonstrates the practical benefits of UAF implementation. It showcases how leading enterprises have utilized UAF to enhance their decision-making processes, optimize resource allocation, and improve organizational agility. These case studies provide valuable insights into the challenges faced during UAF adoption and the strategies employed to overcome them, offering a roadmap for other enterprises to follow. bThe paper also explores best practices for integrating UAF into existing strategic planning processes. It discusses the importance of a holistic approach that considers not only the technological aspects but also the human and cultural dimensions of the organization. By fostering a collaborative environment and encouraging cross-functional communication, enterprises can leverage UAF to drive innovation and continuous improvement. Finally, the study presents a forward-looking perspective on the future of enterprise strategic planning with UAF. It discusses emerging trends and technologies that are likely to shape the strategic landscape and examines how UAF can evolve to meet these new challenges. By staying ahead of these trends, enterprises can maintain a competitive edge and achieve sustainable growth in an ever-changing market environment. In conclusion, this paper underscores the critical role of UAF in strategic enterprise planning. By adopting UAF principles, enterprises can create a robust and adaptable strategic framework that aligns business and IT, enhances decision-making, and drives long-term success.
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INTERNATIONAL JOURNAL OF PROGRESSIVE RESEARCH IN ENGINEERING MANAGEMENT AND SCIENCE (IJPREMS), 2024
This research investigates how the Unified Architecture Framework (UAF) can be leveraged to trans... more This research investigates how the Unified Architecture Framework (UAF) can be leveraged to transform enterprise strategic planning, focusing on the application of UAF frameworks and best practices to drive organizational success. It provides an overview of UAF's comprehensive methodology, detailing its various viewpoints and models that facilitate alignment between business objectives and IT infrastructure. The paper examines how UAF supports effective decision-making, enhances organizational agility, and improves risk management through a structured approach. Through case studies and practical examples, the paper illustrates successful implementations of UAF, highlighting the benefits and challenges encountered. It offers actionable insights into best practices for integrating UAF into existing strategic planning processes, including strategies for overcoming common obstacles and maximizing the framework's potential. The discussion extends to future perspectives, addressing emerging trends and technological advancements that could influence UAF's evolution and application. Overall, the paper underscores the transformative impact of UAF on enterprise strategic planning, providing a roadmap for organizations seeking to leverage the framework to achieve strategic alignment, innovation, and long-term success. The paper also delves into the practical aspects of adopting UAF, including the steps required for successful implementation. It covers critical considerations such as the need for comprehensive training and stakeholder engagement, the importance of tailoring UAF to fit specific organizational contexts, and the integration of UAF with existing tools and methodologies. Through detailed analysis, the paper identifies key success factors and common pitfalls, offering guidance on how to navigate these challenges effectively. Furthermore, the paper explores the future trajectory of UAF, emphasizing the potential for further refinement and adaptation in response to evolving business and technological landscapes. It highlights how emerging technologies, such as artificial intelligence and advanced data analytics, can be integrated into the UAF framework to enhance its capabilities. By addressing these future perspectives, the paper aims to provide a forwardlooking view of how UAF can continue to drive enterprise transformation and innovation in an increasingly complex and dynamic environment.
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Lean Manufacturing Excellence: Innovative Approaches in Industrial Engineering, 2023
This paper investigates innovative strategies for enhancing productivity through the advancement ... more This paper investigates innovative strategies for enhancing productivity through the advancement of lean manufacturing principles in industrial engineering. Lean manufacturing, with its focus on eliminating waste and optimizing processes, has long been a cornerstone of industrial efficiency. However, as industries evolve, so must the methodologies that drive their success. This research delves into cutting-edge lean manufacturing techniques and their integration with modern technologies such as IoT, AI, and automation. By examining case studies and current practices, the paper highlights how these innovations lead to significant improvements in operational efficiency, cost reduction, and product quality. Furthermore, the study addresses the human factors critical to sustaining lean practices, emphasizing the importance of workforce engagement and continuous improvement cultures. The findings suggest that by embracing both technological advancements and human-centric approaches, industrial engineers can achieve unprecedented levels of productivity and maintain a competitive edge in the rapidly changing industrial landscape.
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European Journal of Advances in Engineering and Technology, 2022
The field of engineering technologies and industrial applications encompasses a diverse array of ... more The field of engineering technologies and industrial applications encompasses a diverse array of innovations aimed at enhancing manufacturing practices, boosting efficiency, and promoting sustainable development. This study investigates recent advancements in engineering technologies, with a focus on areas such as mechanisation, additive manufacturing, and materials science. Notable developments include the integration of artificial intelligence (AI) and machine learning for predictive maintenance, the use of 3D printing for rapid prototyping and production, and the development of advanced materials with superior properties. Additionally, the research emphasizes the role of the industrial Internet of Things (IoT) in enabling real-time data monitoring and process optimization. Through various case studies, the transformative impact of these technologies on productivity, cost reduction, and environmental sustainability is demonstrated. The findings highlight the critical need for continuous innovation and interdisciplinary collaboration to address the evolving challenges in industrial operations and to drive the future of manufacturing.
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European Journal of Advances in Engineering and Technology, 2020
Sustainable manufacturing practices are increasingly vital in the quest for environmentally respo... more Sustainable manufacturing practices are increasingly vital in the quest for environmentally responsible production systems. This study explores strategies aimed at reducing waste and energy consumption within manufacturing processes, addressing both environmental and economic challenges. Sustainable manufacturing focuses on optimizing resource use, minimizing waste generation, and lowering energy intensity, which aligns with global sustainability goals and offers significant operational benefits. The paper reviews various approaches and technologies contributing to sustainable manufacturing. Key strategies include lean manufacturing, which emphasizes the reduction of waste through continuous improvement, and the adoption of energy-efficient machinery and renewable energy sources. Innovations such as additive manufacturing and circular economy principles are also examined for their potential to transform traditional manufacturing processes. Additive manufacturing reduces material waste by building components layer-by-layer, while circular economy practices promote recycling and reuse, extending product lifecycles and conserving resources. Furthermore, the study highlights the importance of cultural and organizational shifts towards sustainability. Effective implementation requires engaging stakeholders across all levels of an organization, fostering a culture of environmental responsibility, and incorporating training and awareness programs. Through a comprehensive review of current research and case studies, this paper identifies the benefits and challenges associated with sustainable manufacturing practices. The findings underscore the critical role of innovation and interdisciplinary collaboration in advancing sustainable manufacturing and addressing the environmental challenges of modern production systems. This study provides valuable insights for researchers, practitioners, and policymakers committed to enhancing sustainability in manufacturing operations.
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Journal of Recent Activities in Production
This study's primary objective is the enhancement of makespan optimization, thereby minimizin... more This study's primary objective is the enhancement of makespan optimization, thereby minimizing unproductive time for both machinery and tasks. The research employs a case study methodology, focusing on job scheduling within anElectronicsmanufacturing facility, with a particular emphasis on resource availability. It implements Johnson's algorithm and its expanded versions designed for both two-machine and three-machine scenarios within the context of flow shop scheduling. The principal aim is to identify optimal sequences for scheduling. Within this framework, the investigation computes idle time and makespan metrics for individual machines, utilizing task processing durations and in-out timestamps. The findings reveal anoptimal idle time of 6.21 minutes and a makespan of 142.06minutes for scenarios involving two machines. Furthermore, the research extends its analysis to scenarios with three machines, where two machines are combined in each group, resulting in an optimal idl...
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European Journal of Advances in Engineering and Technology, 2021
This study focuses on the synergistic effects of metolachlor and benoxacor in enhancing crop prot... more This study focuses on the synergistic effects of metolachlor and benoxacor in enhancing crop protection and safety, highlighting their combined potential in modern agricultural practices. Metolachlor is a widely used pre-emergent herbicide known for its efficacy in controlling annual grasses and certain broadleaf weeds, while benoxacor functions as a safener, protecting crops from potential herbicidal damage. The integration of these two chemicals aims to improve weed management while minimizing adverse effects on crops and the environment. In this research, field trials and laboratory experiments were conducted to evaluate the effectiveness of metolachlor and benoxacor on various crop species, including maize, soybeans, and cotton. The study employed a randomized complete block design with multiple treatment groups, including control (no herbicide), metolachlor-only, benoxacor-only, and a combination of metolachlor and benoxacor. Parameters such as weed suppression, crop health, yield, and herbicide residue levels in soil and water were meticulously measured and analyzed. The results demonstrated that the combination of metolachlor and benoxacor significantly enhanced weed suppression compared to metolachlor alone, with a marked reduction in weed biomass and density. Crop health indicators, such as chlorophyll content, plant height, and biomass, were significantly improved in the combination treatment group, suggesting that benoxacor effectively mitigates the phytotoxic effects of metolachlor. Yield analysis showed that crops treated with both metolachlor and benoxacor had a substantial increase in yield, with maize yields increasing by 20%, soybean yields by 15%, and cotton yields by 18% compared to the control group. In conclusion, the combination of metolachlor and benoxacor represents a promising strategy for enhancing crop protection, ensuring higher yields, and reducing the environmental impact of herbicide use. This study provides valuable insights into the synergistic effects of these chemicals and supports their potential role in sustainable agriculture.
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European Journal of Advances in Engineering and Technology, 2023
Herbicides and safeners play a crucial role in modern agriculture by enhancing crop productivity ... more Herbicides and safeners play a crucial role in modern agriculture by enhancing crop productivity and ensuring environmental safety. Herbicides are chemical substances used to control or eliminate unwanted vegetation, particularly weeds, which compete with crops for nutrients, water, and sunlight. However, the application of herbicides can also pose risks to crops and the environment, necessitating the use of safeners. Safeners are compounds added to herbicide formulations to protect crops from potential damage caused by herbicides, without compromising their effectiveness against weeds. This extended abstract explores the mechanisms of action, benefits, and challenges associated with herbicides and safeners. It delves into the biochemical pathways through which safeners mitigate herbicide toxicity in crops, enabling selective weed control and reducing crop injury. Furthermore, the abstract discusses the environmental implications of herbicide use and the role of safeners in minimizing adverse effects on non-target organisms and ecosystems. Emerging trends in the development of new herbicide-safener combinations and advancements in precision agriculture techniques are also highlighted, demonstrating how these innovations contribute to sustainable agricultural practices. The integration of herbicides and safeners in crop management strategies is essential for maintaining high agricultural yields while safeguarding environmental health, underscoring the importance of continued research and development in this field.
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European Journal of Advances in Engineering and Technology, 2024
Small satellites, also known as smallsats or CubeSats, have emerged as pivotal platforms in moder... more Small satellites, also known as smallsats or CubeSats, have emerged as pivotal platforms in modern space exploration and Earth observation. This article reviews the evolution, technological advancements, and applications of small satellites, highlighting their role in democratizing access to space and enabling innovative missions with reduced costs and accelerated development timelines. Advancements in miniaturization, propulsion, and communication systems have enhanced their capabilities for high-resolution imaging, real-time data collection, and autonomous operations. Despite their compact size, small satellites contribute significantly to scientific research, environmental monitoring, disaster response, and telecommunications. This review explores current challenges such as orbital debris management and regulatory frameworks while outlining prospects, including AI-driven autonomy and constellation deployments, which promise to further revolutionize space-based capabilities. As small satellite technology continues to evolve, it stands poised to shape the future of space exploration and redefine our understanding of Earth and beyond. small satellites are revolutionizing space exploration and Earth observation by democratizing access to space, advancing scientific knowledge, and fostering global collaboration. Their compact size, technological versatility, and cost-effectiveness make them indispensable tools for addressing global challenges and achieving sustainable development goals. As small satellite capabilities continue to evolve, they hold the potential to unlock new frontiers in space science, inspire innovation across industries, and shape the future of space exploration for generations to come.
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European Journal of Advances in Engineering and Technology, 2024
The rapid advancement of small satellite technology has sparked significant interest in recent ye... more The rapid advancement of small satellite technology has sparked significant interest in recent years, revolutionizing space exploration and Earth observation capabilities. This abstract explores the current trends, challenges, and opportunities in the field of small satellites. Key topics include the miniaturization of components, advances in propulsion and communication systems, and the integration of artificial intelligence for autonomous operations. Challenges such as limited payload capacity and orbital debris management are also discussed. Opportunities lie in leveraging small satellites for cost-effective missions, rapid deployment, and global connectivity solutions. These abstract highlights the evolving landscape of small satellite technology and its potential impact on future space endeavors. Furthermore, the abstract discusses the growing role of small satellites in democratizing access to space, enabling academic institutions, commercial entities, and developing nations to participate in space missions. The emergence of dedicated launch services and standardized platforms has lowered barriers to entry, fostering innovation and entrepreneurship in the space industry. This abstract concludes by examining prospects for small satellite constellations in fields such as climate monitoring, disaster response, and precision agriculture, underscoring their potential to address global challenges and drive sustainable development goals.
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European Journal of Advances in Engineering and Technology, 2023
In the ever-evolving landscape of industrial engineering, the integration of smart technologies r... more In the ever-evolving landscape of industrial engineering, the integration of smart technologies represents a significant leap forward in optimizing production management. This paper explores the multifaceted advancements brought about by the convergence of Industry 4.0 technologies-such as the Internet of Things (IoT), artificial intelligence (AI), big data analytics, and cyber-physical systems-with traditional industrial engineering practices. The primary objective is to delineate how these smart technologies can enhance operational efficiency, reduce production costs, improve quality control, and foster a more sustainable manufacturing environment. The implementation of IoT in industrial settings enables real-time monitoring and control of manufacturing processes. This connectivity facilitates predictive maintenance, minimizes downtime, and enhances the responsiveness of production systems. AI and machine learning algorithms contribute significantly to process optimization by analyzing vast amounts of data to identify patterns, predict outcomes, and provide actionable insights. These technologies help in making informed decisions, reducing waste, and improving overall productivity. Big data analytics plays a crucial role in transforming raw data into valuable information. By harnessing the power of big data, manufacturers can gain a deeper understanding of their processes, identify bottlenecks, and optimize resource allocation. This paper discusses case studies where big data analytics has led to significant improvements in production efficiency and cost savings. Cyber-physical systems (CPS) integrate computational elements with physical processes, creating a seamless interaction between the digital and physical worlds.
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European Journal of Advances in Engineering and Technology, 2022
This abstract investigates the intricate interplay between innovation and regulation in the realm... more This abstract investigates the intricate interplay between innovation and regulation in the realm of emerging technologies, particularly focusing on the pivotal role of requirements engineering. As the technological landscape evolves at an unprecedented pace, driven by breakthroughs in fields such as artificial intelligence, blockchain, and biotechnology, there is a pressing need to strike a delicate balance between fostering innovation and ensuring regulatory compliance. This study explores how requirements engineering serves as a linchpin in navigating this dynamic landscape, facilitating the development of robust, reliable, and ethically sound solutions that meet the evolving needs of stakeholders while adhering to regulatory frameworks. The abstract outlines the key objectives of the study, which include elucidating the challenges and opportunities inherent in reconciling innovation with regulation, identifying best practices in requirements engineering for emerging technologies, and providing actionable insights for stakeholders involved in the development and deployment of such technologies. Drawing upon a comprehensive review of existing literature, case studies, and expert interviews, the study offers a nuanced analysis of the strategies, tools, and methodologies employed in requirements engineering to address the complex regulatory landscape of emerging technologies. Furthermore, the abstract highlights the significance of this research in informing policy decisions, shaping industry practices, and fostering responsible innovation in emerging technology domains. By shedding light on the intricate nexus between innovation and regulation, the study aims to empower stakeholders with the knowledge and tools needed to navigate this multifaceted landscape effectively. Ultimately, the abstract underscores the critical role of requirements engineering in driving sustainable innovation while ensuring compliance with ethical, legal, and societal norms in the rapidly evolving realm of emerging technologies.
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European Journal of Advances in Engineering and Technology, 2022
As industries transition into the era of Industry 4.0, characterized by the integration of digita... more As industries transition into the era of Industry 4.0, characterized by the integration of digital technologies and automation into manufacturing and production processes, the role of requirements engineering becomes increasingly vital. This paper explores strategic approaches to requirements engineering within the context of Industry 4.0 environments. The abstract begins by outlining the key challenges and opportunities presented by Industry 4.0, emphasizing the need for agile and adaptable requirements engineering processes to effectively address the complexities of modern manufacturing systems. Next, the abstract discusses various strategic approaches to requirements engineering, including the utilization of model-based techniques, agile methodologies, and stakeholder collaboration frameworks. Additionally, the abstract highlights the importance of considering emerging technologies such as the Internet of Things (IoT), artificial intelligence (AI), and cyber-physical systems (CPS) in the requirements engineering process. Through an analysis of industry best practices and case studies, this paper aims to provide insights into how organizations can optimize their requirements engineering practices to thrive in the dynamic and transformative landscape of Industry 4.0.
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Papers by Iqtiar M Siddique
expands its scope to examine sustainability aspects within Bitcoin mining. It investigates the scope of using renewable energy sources such as wind, hydroelectric, solar, and geothermal. This in-depth exploration assesses the adaptability and potential synergies between these renewable energy
sources and Bitcoin mining operations. This study examines aspects such as energy efficiency, environmental effect, and economic viability to provide a comprehensive perspective on the possibility and challenges of merging wind, hydro, solar, and geothermal resources into sustainable
Bitcoin mining. The study's findings provide useful insights into Bitcoin's future and its potential impact on global financial systems and environmental sustainability. This thesis intends to use Bitcoin mining from Methane (CH4) flares to contribute to a more resilient and sustainable society while promoting positive environmental change.