NEWS UPDATE
The B.Tech in Cybersecurity is a program designed to develop proficient cybersecurity professionals capable of protecting digital assets in an increasingly connected and vulnerable digital landscape. The program provides a strong foundation in computer science, paired with specialized training in cybersecurity concepts, tools, and practices. Students gain hands-on experience in areas such as ethical hacking, cryptography, network security, penetration testing, digital forensics, risk management, and secure software development. The curriculum also integrates legal, ethical, and regulatory aspects of cybersecurity, preparing students to address real-world threats with a holistic perspective. Through simulation labs, red team/blue team exercises, internships, and industry certifications, students are trained to anticipate, detect, and respond to cyber threats across sectors such as finance, defense, healthcare, and critical infrastructure.
Graduates of the B.Tech program will be able to:
1. Engineering Knowledge
Apply knowledge of mathematics, science, engineering fundamentals, and specialization-specific skills to solve complex engineering problems.
2. Problem Analysis
Identify, formulate, review research literature, and analyze complex engineering problems using principles of mathematics, natural sciences, and engineering sciences.
3. Design/Development of Solutions
Design solutions for complex engineering problems and develop system components or processes that meet specified needs, considering public health, safety, and environmental impact.
4. Conduct Investigations of Complex Problems
Use research-based knowledge and methods including design of experiments, analysis, and interpretation of data to provide valid conclusions.
5. Modern Tool Usage
Create, select, and apply appropriate modern engineering and IT tools, including prediction and modelling, to complex engineering tasks with an understanding of limitations.
6. The Engineer and Society
Apply contextual knowledge to assess societal, health, safety, legal, and cultural issues and understand the responsibilities relevant to professional engineering practice.
7. Environment and Sustainability
Understand the impact of engineering solutions in societal and environmental contexts, and demonstrate knowledge of sustainable development.
8. Ethics
Apply ethical principles and commit to professional ethics, responsibilities, and norms of engineering practice.
9. Individual and Team Work
Function effectively as an individual, and as a member or leader in diverse teams and multidisciplinary environments.
10. Communication
Communicate effectively on complex engineering activities with the engineering community and with society, through reports, presentations, and clear documentation.
11. Project Management and Finance
Demonstrate knowledge and understanding of engineering and management principles and apply these to project work as a team member or leader in multidisciplinary settings.
12. Lifelong Learning
Recognize the need for, and engage in, independent and lifelong learning in the context of technological advancements.
Graduates will demonstrate strong foundational and applied knowledge in cybersecurity principles, practices, and technologies to protect digital assets and infrastructure.
鈼 Graduates will analyze, design, and implement secure systems while adhering to national and international standards, legal frameworks, and ethical guidelines.
鈼 Graduates will be equipped to respond proactively to evolving cybersecurity threats through continuous learning, threat intelligence, and adaptive security strategies.
鈼 Graduates will succeed in professional roles such as security analysts, consultants, ethical hackers, or researchers and contribute to a safer digital society through innovation, leadership, and collaboration.
1. Analyze digital systems for vulnerabilities and implement strategies to safeguard networks, applications, and data assets.
2. Apply cryptographic techniques, security protocols, and forensic methods to prevent, detect, and respond to cyber threats.
3. Develop secure computing environments by adhering to industry standards and legal frameworks related to cyber governance and privacy.
To be eligible for the B.Tech programs at Aurora University, applicants must have:
鈥 Completed 10+2 or equivalent with Physics, Mathematics, and Chemistry/Computer Science
鈥 Qualified in a recognized entrance exam (such as JEE Main / CUET UG/ AURUM (Aurora University Admission Test)
鈥 Met the minimum aggregate percentage as per program requirements
鈥 Admissions are based on merit, followed by counselling or interview rounds where applicable.
Qualify AURUM UG.
Candidates having valid JEE mains/ CUET UG score are exempted from AURUM UG.
Our Multi-Layer Integrated Framework meticulously crafted to provide students with a diverse array of learning opportunities, aligning seamlessly with the tenets of the National education policy 2020. Envisioned to shape a new educational paradigm that is holistic, flexible, and attuned to the demands of the 21st century, our program is structured to prepare students comprehensively. At its core, the framework comprises five distinct layers of learning, each strategically designed to serve a specific purpose in the holistic development of students' education.
Core 麻豆传媒: This layer equips students with a solid understanding of their chosen field of study, encompassing fundamental concepts, principles, and other essential skills of respective discipline. It incorp.
Research Education: The second layer focuses on nurturing students' research skills and intellectual curiosity. Students engage in research projects, experiments, and collaborations with faculty and peers to deepen their understanding of their areas of interest.
External Certifications: In the third layer, students have the opportunity to obtain certifications relevant to language proficiency, productivity skills, and industry readiness within their chosen field. These certifications enhance students' employability and demonstrate their expertise to potential employers.
Foreign Language: The fourth layer mandates the acquisition of proficiency in a foreign language. This requirement enhances students' cross-cultural competence, global perspective, and communication skills, preparing them to thrive in an increasingly interconnected world.
Talent & Enrichment: The fifth layer provides students with opportunities to explore their interests, develop their talents, and engage in extracurricular activities. These activities contribute to students' personal and professional growth, fostering the development of essential life skills.
All students are provided with ample opportunity to pursue multi-disciplinary internships during the final term of each year. With multiple Internships, our students engage with Corporate Firms, Research Institutes, Govt Agency and many more. Our exclusive Internship programs offer students a great flexibility to explore different domains and attain practical real time exposure. Our top Internship Recruiters for the academic year 2023-24:
Software Developer
Systems Architect
Database Administrator
IT Consultant
Quality Assurance Engineer
Research Assistant
Technical Project Manager
| Tution Fee | |||
|---|---|---|---|
| Application Fee | 1,000/- | ||
| Registration Fee | 10,000/- | ||
| Course Fee Per Annum | 2,25,000/- | ||
| Fee Includes | Tuition Fee Training and Testing Fee for: a. Microsoft Office Specialist (Word, Excel, Power Point) b. Foreign Language Certifications (A1, A2, B1, B2) c. Cambridge University English Language Proficiency Certifications (CEFR B1, B2, C1, C2) d. Washington University Dynamic Public Speaking |
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To graduate with a B.Tech degree, students must:
鈥 Earn 280 credits through coursework, labs, projects, certifications, and enrichment activities
鈥 Complete internships, a capstone project, and external certifications
鈥 Fulfil requirements in core education, research, foreign language, and talent & enrichment
Maintain minimum academic performance and adhere to the university鈥檚 code of conduct and attendance policies
Aurora Higher Education and Research Academy
Deemed-to-be-University
Estd. u/s 3 of UGC Act 1956
Day-Scholar Campus: Uppal, Hyderabad - 500098, Telangana.
Residential Campus: Bhongir, Yadadri - 508116, Telangana.
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