About Journal – International Journal of Scientific & Technical Development

ISSN : 2348-4047

Periodicity : Bi-Annual

Welcome to IJSTD: An International Journal of Scientific & Technical Development , where the realms of Scientific and Technical intersect to illuminate the complexities of human learning and development. As a premier platform for interdisciplinary course, we provide a space for scholars, educators, and practitioners to explore the dynamic interplay between theory, practice, and research. With a commitment to fostering innovation and advancing understanding, IJSTD invites contributions that push the boundaries of traditional disciplinary boundaries, offering insights that inform both theory and practice. Join us in unraveling the intricate tapestry of Scientific and Technical development as we strive to shape the future of teaching, learning, and mental well-being on a global scale.

Vision & Mission

Vision Statement:

The vision of the International Journal of Scientific & Technical Development (IJSTD) is to be a premier catalyst for advancing the boundaries of knowledge in Engineering and Technology globally. With a steadfast commitment to excellence and innovation, IJSTD aims to serve as a beacon of scholarly achievement, fostering groundbreaking research that addresses critical challenges and opportunities in the dynamic landscape of. Engineering and Technology. By promoting interdisciplinary collaboration the journal endeavors to inspire transformative ideas and practical solutions that shape the future of Engineering and Technology practices. Through rigorous peer review and a dedication to academic integrity, IJSTD seeks to empower researchers, educators, and practitioners to make significant contributions to theory and practice, ultimately influencing positive change in organizations and societies worldwide.

Mission Statement:

The mission of the International Journal of Scientific & Technical Development is to foster the advancement of knowledge in the field of Engineering and Technology through the publication of high-quality, original research. We aim to promote research excellence by encouraging rigorous empirical studies, theoretical analyses, and critical literature reviews that contribute significantly to the understanding of Engineering and Technology and its practices and strategies. Embracing an interdisciplinary approach, the journal welcomes contributions from diverse fields such as as Computer Science , Mechanical , Civil , Electrical and Electronics and Communication Engineering and Applied Science . We strive to provide a global platform for researchers to disseminate their findings, address Technology challenges, and offer practical insights that enlighten advancements . Upholding the highest ethical standards, we are committed to transparency, academic integrity, and the promotion of impactful research that enhances both scholarly discourse and real-world Technology practices.

Scope & Objectives

Scope:

Engineering Technology and Computing each encompass diverse yet interrelated scopes essential for understanding and navigating the complexities of modern Technology and societal dynamics and Computing Techniques

– Mechanical Engineering Technology: Involves designing, developing, and testing mechanical systems and devices. Applications range from automotive and aerospace to robotics and consumer products.

– Electrical Engineering Technology: Encompasses working with electrical systems, electronics, and instrumentation. This field includes power generation and distribution, telecommunications, and electronic device design.

– Civil Engineering Technology: Deals with infrastructure development, including buildings, roads, bridges, and water systems. It involves applying engineering principles to the planning, design, and construction of public works.

– Software Engineering: Centers on the development, design, and maintenance of software systems. This includes application development, system architecture, and software project management.

– Computer Science: Broadly covers algorithms, programming languages, data structures, and theoretical aspects of computing. It also includes areas like artificial intelligence, machine learning, and cybersecurity.

– Information Technology (IT): Involves managing and supporting information systems and infrastructure. This includes network administration, database management, IT support, and cybersecurity.

– Data Science: Focuses on extracting insights from large volumes of data. It involves statistical analysis, machine learning, data visualization, and data engineering.

Objectives:

The objectives of Engineering Technology and Computing collectively aim to foster efficient advancement in Technology and societal dynamics and Computing Techniques

Engineering Technology

Applied Problem Solving: Focus on solving practical engineering problems using current technologies and methodologies. This often involves designing, testing, and implementing solutions in real-world settings.
Technology Integration: Develop and integrate new technologies into existing systems. This includes upgrading systems, improving efficiency, and ensuring compatibility.
System Design and Implementation: Design and implement systems and processes that meet specific needs. This involves applying engineering principles to create efficient, reliable, and cost-effective solutions.
Project Management: Manage engineering projects from conception through execution, ensuring they meet technical specifications, budgets, and deadlines.
Technical Communication: Effectively communicate technical information to various stakeholders, including team members, clients, and non-engineers. This includes writing reports, making presentations, and facilitating meetings.
Quality Assurance: Implement and maintain quality control processes to ensure that products and systems meet required standards and regulations.
Ethics and Professionalism: Adhere to ethical practices and professional standards in engineering technology. This involves understanding the broader impact of technology on society and making decisions that reflect ethical considerations.

Computing

Software Development: Design, develop, and test software applications and systems. This includes coding, debugging, and maintaining software to meet user needs.
System Analysis and Design: Analyze user requirements and design systems that address those needs. This involves creating models, specifications, and prototypes to ensure that systems are functional and user-friendly.
Data Management and Analysis: Handle and analyze data to support decision-making. This includes database management, data mining, and statistical analysis.
Networking and Security: Develop and maintain computer networks and ensure their security. This involves implementing measures to protect data and systems from unauthorized access and cyber threats.
Human-Computer Interaction: Design and evaluate user interfaces and interactions to improve the usability and user experience of computing systems.
Problem-Solving and Critical Thinking: Apply logical and analytical skills to solve complex computing problems and develop innovative solutions.
Emerging Technologies: Stay current with emerging technologies and trends in computing. This includes exploring new tools, techniques, and applications to stay competitive and relevant in the field.
Ethics and Professionalism: Adhere to ethical practices in computing, including issues related to privacy, data protection, and responsible use of technology.

Both fields aim to bridge theoretical knowledge with practical applications, addressing real-world challenges and contributing to technological advancements and innovations.