Short-Term Goals:

1. Revise Curriculum with Industry Input:

   • Design a flexible, industry-aligned syllabus with the inclusion of emerging technologies like IoT, AI, ML, and 5G.

2. Introduce Skill-Based Certificate Courses:

   • Launch short-term courses on tools like MATLAB, Python for ECE, Embedded C, VLSI tools, etc.

3. Establish Centers of Excellence (CoEs):

   • Set up labs or CoEs in collaboration with industries like Texas Instruments, Intel, or Keysight for hands-on learning.

4. Enhance Industry Interaction:

   • Sign MoUs with electronics and communication companies for internships, industrial visits, and guest lectures.

5. Promote Student Innovation:

   • Encourage students to participate in national-level competitions like Smart India Hackathon, ISRO Challenges, etc.

6. Faculty Development:

   • Organize workshops, FDPs, and technical training for faculty on advanced technologies and teaching methodologies.

    Long-Term Goals:

1. Achieve National and International Accreditations:

   • Aim for NBA, NAAC (A grade or above), and international certifications to enhance academic quality.

2. Launch Industry-Integrated Programs:

   • Introduce B.Tech (Honors/Minor) tracks in IoT, AI, or VLSI in collaboration with industry partners.

3. Promote Research and Funded Projects:

   • Encourage faculty and students to undertake funded research from agencies like DST, DRDO, ISRO, etc.

4. Incubation and Startup Support:

   • Establish an ECE innovation hub or incubation center to support student startups in electronics and communication.

5. Improve Placement and Higher Studies Opportunities:

   • Build strong placement collaborations with core companies and guide students towards GATE, GRE, and higher studies abroad.

6. Global Collaborations:

   • Collaborate with foreign universities for student exchange, joint research, and dual degree programs.