Komal Parikh
Assistant Professor
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About Komal Ankit Parikh

Komal Parikh is a faculty member at the Faculty of Technology, CEPT University, bringing over 20 years of expertise in surveying and geotechnical engineering. She holds a bachelors and masters degree in civil engineering. Her research interests lie in the application of GIS to civil engineering projects and advancements in geotechnical engineering.
Komal Parikh is a faculty member at FT, CEPT University, with more than 20 years of experience in surveying & mapping, and geotechnical engineering. She has completed her graduation and post-graduation in civil engineering. She is an expert in 3‑D mapping for building and infrastructure projects using advanced instrumentation techniques. Her research interests include exploring GIS in civil engineering applications.
  • Geotechnical Enginerring
  • Geosynthetics
  • Advanced survey techniques
  • GIS techniques for road infrastructure
  • Drone processing and data analysis
  • Vulnerability assessment through spatiotemporal analysis — S‑2026
  • Geotechnical Engineering — S‑2026
  • Geotechnical Engineering — S‑2025
  • Terrain-Responsive Road Infrastructure: Planning and Design — M‑2025
  • Geotechnical Engineering — S‑2024
  • Geotechnical Investigation and Ground Improvements in Construction — M‑2024
  • Studio I — M‑2024
  • UAV and LiDAR based bridge condition assessment — W‑2024

Conference

  1. Image Processing based Pavement Evaluation Transportation Research Efforts for Ecological Sustainability (TREES 2025)

Conference Proceedings

  1. GPS and GIS-based mapping of Ahmedabad city 8th IYGEC-2021
  2. Exploring Artificial Intelligence (AI) for Speed Management in Urban Intersection SEMCE-2023)
  3. GPS and GIS-based soil mapping of Rajkot city, CTCS 2023
  4. Robotics Application for Road Crack Detection SEMCE-2023)

Journal

Journal Article

  1. Advanced survey techniques for mapping‑A case study of Ratnagiri hill Udaipur Journal of Remote Sensing & GIS [JoRSG]
  2. Bridge Information Modelling and Augmented Reality using terrestrial technology Reliability: Theory and Applications