Publication in SCI (Clarivate) Journal:

  1. Pal, Pankaj, Sachin Tripathi, and Chiranjeev Kumar. Single Probe Imitation of Multi-Depth Capacitive Soil Moisture Sensor Using Bidirectional Recurrent Neural Network.. IEEE Transactions on Instrumentation and Measurement (2022).
  2. Pal, Pankaj, Rashmi Priya Sharma, Sachin Tripathi, Chiranjeev Kumar, and Dharavath Ramesh. Machine Learning Regression for RF Path Loss Estimation Over Grass Vegetation in IoWSN Monitoring Infrastructure.” IEEE Transactions on Industrial Informatics (2022).
  3. Sharma, Rashmi Priya, Dharavath Ramesh, Pankaj Pal, Sachin Tripathi, and Chiranjeev Kumar. “IoT enabled IEEE 802.15. 4 WSN monitoring infrastructure driven Fuzzy-logic based Crop pest prediction.” IEEE Internet of Things Journal (2021).
  4. Pal, Pankaj, Rashmi Priya Sharma, Sachin Tripathi, Chiranjeev Kumar, and Dharavath Ramesh. “2.4 GHz RF Received Signal Strength Based Node Separation in WSN Monitoring Infrastructure for Millet and Rice Vegetation.” IEEE Sensors Journal 21, no. 16 (2021): 18298-18306.
  5. Pal, Pankaj, Rashmi Priya Sharma, Sachin Tripathi, Chiranjeev Kumar, and Dharavath Ramesh. “Genetic algorithm optimized node deployment in IEEE 802.15. 4 potato and wheat crop monitoring infrastructure.” NATURE Scientific Reports 11, no. 1 (2021): 1-12.
  6. Pal, Pankaj, Sachin Tripathi, and Chiranjeev Kumar. “Bandwidth estimation in high mobility scenarios of IEEE 802.11 infrastructure‐less mobile ad hoc networks. International Journal of Communication Systems 32.15 (2019): e4080.
  7. Pal, Pankaj, Sachin Tripathi, and Chiranjeev Kumar. “Clustered heterogeneous wireless sensor network infrastructure for reliable and efficient path planning of mobile nodes in remote area. International Journal of Sensor Networks 31.4 (2019): 199-215.
  8. Pandey, Sudhakar, and Pankaj Pal. “SPIN-MI: Energy saving routing algorithm based on SPIN protocol in WSN. National Academy Science Letters 37.4 (2014): 335-339.
  9. Pandey, Sudhakar, Pankaj Pal, and Abhinav Mukherjee. “IRF-NMB: intelligent route formation technique in Ad Hoc network using node mobility behaviour.”</span> National Academy Science Letters 38.3 (2015): 213-219.

Data Repository:

  1. Agro Glean System, Pankaj Pal, Rashmi Priya Sharma, November 11, 2020, “Effect of Paddy Rice vegetation on received signal strength between CC2538 SoC based sensor nodes operating at 2.4 GHz Radio Frequency (RF)”, IEEE Dataport, doi: https://dx.doi.org/10.21227/j5xy-3e81.
  2. Agro Glean System, Pankaj Pal, November 11, 2020, “Effect of Paddy vegetation on path-loss between CC2650 SoC based sensor nodes operating at 2.4 GHz Radio Frequency (RF)”, IEEE Dataport, doi: https://dx.doi.org/10.21227/d93c-dd49.
  3. Agro Glean System, Pankaj Pal, November 11, 2020, “Effect of millet vegetation on received signal strength between CC2538 SoC based sensor nodes operating at 2.4 GHz Radio Frequency (RF)”, IEEE Dataport, doi: https://dx.doi.org/10.21227/0j8q-nb57.
  4. Agro Glean System, Pankaj Pal, November 11, 2020, “Effect of Sugarcane Vegetation On Path-Loss Between CC2650 and CC2538 Soc Based Sensor Nodes Operating At 2.4 Ghz Radio Frequency (Rf)”, IEEE Dataport, doi: https://dx.doi.org/10.21227/8mcm-hx34.