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Dr. Sartajvir Singh is an accomplished academician at Chandigarh University, specializing in Electronics and Communication Engineering. He is practicing as Registered Patent Agent (IN/PA 5806). So far, he has filed 58 innovations/patents at the Indian Patent Office (IPO) with 35 Granted/Awarded. With expertise in the filed of Remote Sensing, Computing Algorithms, and Electronics, he has published 72 in SCI/Scopus Index Journals. An active IEEE member, he engages with IEEE Young Professionals, IEEE GRSS, IEEE Sensors Council, and ISPRS. His research focuses on Remote Sensing, Machine Learning, Deep Learning, and Computer Vision. He has served as a keynote speaker and resource person for numerous workshops and webinars. He also edited 2 conference proceedings, 7 books with publishers like Wiley, De Gruyter, Bentham, Elsevier, CRC, and Apple Academic Press.

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Hyperautomation in Precision Agriculture: Advancements and Opportunities for Sustainable Agriculture

Hyperautomation in Precision Agriculture: Advancements and Opportunities for Sustainable Agriculture

Publisher: Elsevier - Academic Press

Editors: Sartajvir Singh, Yiannis Ampatzidis, Vishakha Sood, Arun Lal Srivastav

As the hyperautomation is the future of agriculture, this book provides a comprehensive overview of recently developed principles and procedures of state-of-art automation in agriculture to improve productivity and resource optimization. it also included newly developed applications and real-world applications in the field of hyperautomation to deliver sustainable agriculture practices, making the book content intuitive and practical in its implementation.

Important Dates
Abstract Submission Deadline30 June 2023
Abstract Acceptance Notification15 July 2023
Full Chapter Submission Deadline31 August 2023
Chapter Acceptance Notification30 September 2023
Projected Book Release DateDecember 2024
Important Guidelines
Citation StyleIEEE
OriginalityPlagiarism Under 10%, 0% AI Generated Content
Text Style11 pt Times New Roman, 1.5 line spacing
Headings3 numbered headings (e.g. 1, 1.1, 1.1.1), one unnumbered heading
FiguresHigh-quality, original figures, 300 dpi
Chapter submissions are closed. Thank you for your cooperation.
  • Chapter 1: A global overview and the fundamentals of sustainable agriculture.

  • Chapter 2: Hyperautomation: digital transformation of precision agriculture & sustainable practices.

  • Chapter 3: Remote sensors for hyperautomation in agriculture.

  • Chapter 4: Advances in automation and algorithms for sustainable agriculture.

  • Chapter 5: Applications of hyperautomation in decision-making process & sustainable crop production.

  • Chapter 6: Smart sustainable farming using IoT, cloud computing, and big data.

  • Chapter 7: Integrated IoT in irrigation management for sustainable agriculture and smart farming.

  • Chapter 8: Monitoring and mapping of agricultural parameters using AI.

  • Chapter 9: Sustainable plant disease protection using ML and DL algorithms.

  • Chapter 10: Modeling, simulation, and visualization of different crop parameters using advanced algorithms.

  • Chapter 11: Estimation of soil properties for sustainable crop production using multisource data fusion.

  • Chapter 12: Advanced remote sensing technologies for crop disease and pest detection.

  • Chapter 13: Soil and field analysis using unmanned aerial vehicles (UAV) for smart and sustainable farming.

  • Chapter 14: Crop health assessment using Multi/hyperspectral sensors.

  • Chapter 15: Sustainable yield prediction using the fusion of optical and microwave sensors.

  • Chapter 16: Assessment of crop damage and crop progress using remote sensing.

  • Chapter 17: Soil moisture monitoring using optical/microwave remote sensing dataset.

  • Chapter 18: Robotic/Digital Process Automation (RPA/DPA) for sustainable plantation.

  • Chapter 19: Robotics-assisted precision and sustainable irrigation, harvesting and fertilizing processes.

  • Chapter 20: Computer vision technology for weed detection and removal.

  • Chapter 21: LiDAR/RADAR-robots in monitoring & mapping crop growth for sustainable crop production.

  • Chapter 22: Agricultural Robots in smart and sustainable Greenhouses.

  • Chapter 23: Recent applications of Hyperautomation in the Agriculture sector.

  • Chapter 24: Hyperautomation-enabled smart farming: challenges and opportunities.

  • Chapter 25: Innovations in industrial hyperautomation & smart agriculture.

  • Chapter 26: Challenges & future trends in the Hyperautomation of Sustainable Agriculture.

  • Chapter 27: Challenges & opportunities in the adoption of technologies and their environmental impact.

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Submissions Closed

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