ATAL FDP Modern Antenna Design CBIT

The ATAL FDP Modern Antenna Design CBIT operates as a fully funded, short-term skill training program focused on advanced radar systems and machine learning integration. Organized by the Department of Electronics and Communication Engineering at Chaitanya Bharathi Institute of Technology, this initiative specifically targets faculty members, researchers, and industry professionals. Consequently, participants receive comprehensive instruction and an official AICTE certification upon successful evaluation. Furthermore, eligible candidates must secure an institutional nomination and submit their applications online before the final deadline.

Programme Highlights

Organising BodyModeDurationLocation
Department of Electronics and Communication Engineering, CBITOffline (Non-residential)One WeekCBIT Campus, Hyderabad

About the Programme

The AICTE Training and Learning (ATAL) Academy consistently establishes unique faculty development frameworks across various thrust areas of modern technology. Accordingly, the ATAL FDP Modern Antenna Design CBIT addresses the critical need to merge electromagnetic design principles with explainable artificial intelligence. By bridging theoretical foundations with practical implementation strategies, the training directly supports professionals working in aerospace radar, defence communication, and upcoming 5G/6G applications.

Established in 1979, Chaitanya Bharathi Institute of Technology stands as a premier autonomous engineering institution in Telangana, holding a NAAC ‘A++’ grade. Notably, the host department maintains a strong exponential growth trajectory in research, equipped with specialized facilities like the Navigation & Communication Research Centre (NCRC). Therefore, attendees benefit from an industry-compliant teaching methodology designed to effectively solve modern surveillance and aerospace challenges.

Eligibility Criteria

  • Academic Qualification
    • Faculty members currently serving at AICTE-approved institutions hold eligibility for this training.
    • Research scholars and postgraduate (PG) students qualify to participate.
  • Experience & Other Conditions
    • Industry professionals must obtain a formal nomination from the Head of their respective Institution.
    • Applicants must possess a valid institutional ID card and a No Objection Certificate (NOC) for the mandatory registration process.

Benefits & Funding

The AICTE fully sponsors this program, ensuring comprehensive academic and logistical support for selected candidates.

ComponentAmount or Detail
Registration FeeNo registration fee applies
Travel Allowance (TA)₹1,200 (lump sum) provided to external participants traveling beyond 20 km (requires >=90% attendance)
HospitalityWorking lunch and refreshments provided during sessions
CertificationAwarded upon achieving at least 70% cumulative evaluation weightage

Topics / Themes Covered

  • Radar antenna fundamentals, advanced applications, and current research methodologies.
  • Design frameworks for microstrip and multiple antenna radar systems.
  • Phased array antennas integrated with modern beamforming techniques.
  • Metasurfaces, Frequency Selective Surfaces (FSS), and smart reconfigurable antennas.
  • Foundational AI/ML concepts tailored specifically for antenna systems and radar optimization.
  • Implementation of machine learning and explainable AI for radar antennas.
  • Hands-on MATLAB laboratory sessions covering beamforming, optimization, and advanced simulation techniques.
  • Electronic warfare and industrial defence communication applications.
  • Technical writing, article review, and rigorous research methodology.

Selection Process

  • The organizing committee initially screens registered candidates based on their submitted institutional NOC and academic credentials.
  • Instructors continuously evaluate attendance, requiring a high threshold for both certification and travel reimbursement.
  • Participants undergo a mandatory assessment test at the conclusion of the training.
  • Subsequently, evaluators calculate the final 70% cumulated weightage using attendance, test scores, a two-page article summary, practical session outputs, an industrial visit report, and a reflection journal.

How to Apply

  1. Access the official AICTE-ATAL portal to begin the registration process.
  2. Create a new login credential specifically as a “Participant” under the Sign-Up section.
  3. Update your comprehensive profile details within the portal interface.
  4. Navigate to the “FDPs” link and select the corresponding ATAL program hosted by CBIT.
  5. Upload a scanned copy of your official ID Card alongside the NOC obtained from your Head of Institution to complete the submission.

Important Dates

EventDate
Programme Start Date20-07-2026
Programme End Date25-07-2026

Important Links

ResourceLink
Apply OnlineClick Here
Download FDP BrochureDownload
Download FDP ScheduleDownload
Official WebsiteClick Here

Contact Details

  • Coordinator: Prof. N. V. Koteswara Rao (Director – IQAC) | +91-9848244879 | nvkoteswararao_ece@cbit.ac.in
  • Co-coordinator: Dr. B. Neeraja (Assistant Professor) | +91-6309653729 | bneeraja_ece@cbit.ac.in
  • Official Address: Chaitanya Bharathi Institute of Technology, Kokapet (Village), Gandipet, Hyderabad-500075, Telangana State, India

FAQs

Q1: Who can attend the ATAL FDP Modern Antenna Design CBIT?
A1: Faculty members, research scholars, PG students from AICTE-approved institutions, and officially nominated industry professionals hold eligibility.

Q2: Does the host institution provide accommodation for outstation participants?
A2: No, the organizers explicitly state that they will not provide accommodation for this offline training program.

Q3: What financial support does the program offer to attendees?
A3: The program waives all registration fees and provides a ₹1,200 travel allowance to external participants traveling over 20 km who successfully maintain at least 90% attendance.

Q4: How do candidates earn their final training certification?
A4: Participants must achieve a 70% cumulated weightage distributed across attendance, a final test, practical outputs, an article summary, and a reflection journal.

Q5: What are the primary topics covered during the laboratory sessions?
A5: The hands-on sessions comprehensively cover beamforming, advanced optimization, simulation techniques, and AI applications tailored for 5G/6G systems.

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