Dinesh Sharma | Agriculture | Best Innovation Award

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Dr Dinesh Sharma |  Agriculture |  Best Innovation Award

Associate Professor at  Manipal University Jaipur,  India

Dr. Dinesh Sharma is an accomplished Associate Professor in Data Science and Engineering at Manipal University Jaipur. With over 14 years of experience in technical and engineering education, he has contributed extensively to academia, research, and software development. His expertise spans artificial intelligence, precision agriculture, and wireless sensor networks.

 

Publication Profile

🎓 Academic Qualifications:

  • Ph.D. in Computer Science & Engineering – Uttarakhand Technical University, Dehradun (2021)
  • M.E. in Computer Science & Engineering – R.G.P.V., Bhopal (2007)
  • B.E. in Computer Science & Engineering – R.G.P.V., Bhopal (2006)
  • C-DAC Certification in Software Development – ACTS, Pune (2007)

💼 Professional Experience:

  • Associate Professor at Manipal University Jaipur (Aug 2023 – Present)
  • Assistant Professor at Amity University, Madhya Pradesh (2015 – 2023)
  • Assistant Professor at IMS Unison University, Dehradun (2013 – 2015)
  • Head of Department & Assistant Professor at Amardeep College of Engineering, Agra (2012 – 2013)
  • Guest Lecturer at Rustamji Institute of Technology, Gwalior (2008 – 2010)
  • Software Designer & Developer (Freelancer) at D-Sys Data Solution, Gwalior (2008 – 2012)

📚 Research & Innovations:

  • Published multiple patents, including systems for intelligent animal welfare, waste composting, and assistive devices for the visually impaired.
  • Authored research papers on AI applications in agriculture and soil monitoring.
  • Contributed book chapters on enterprise service buses and data mining in agriculture.
  • Current research interests include AI in cybersecurity, precision agriculture, and energy-efficient wireless networks.

🏆 Achievements & Skills:

  • Proficient in C#, ASP.Net, PHP, Java, and Android app development.
  • Coordinated academic initiatives, including KPI management, coding clubs, and entrepreneurship cells.
  • Extensive experience in organizing and attending FDPs and workshops on cutting-edge technologies and pedagogy.

Publication Top Note:

  • A New Energy-Efficient Multitier Deterministic Energy-Efficient Clustering Routing Protocol for Wireless Sensor Networks
    Symmetry, 12(5), 837, 2020.
  • Energy-Efficient Multitier Random DEC Routing Protocols for WSN in Agriculture
    Wireless Personal Communication, 2021.
  • Factors Affecting E-Waste Management: An Interpretive Structural Modeling Approach
    2015 Fifth International Conference on Communication Systems and Network Technologies, 2015.
  • Comparative Energy Evaluation of LEACH Protocol for Monitoring Soil Parameters in Wireless Sensor Networks
    Materials Today: Proceedings, 29, 381-396, 2020.
  • Enhanced PEGASIS Algorithm for Increasing the Lifetime of Wireless Sensor Networks
    Materials Today: Proceedings, 29, 372-380, 2020.
  • Face Mask Detection Analysis for COVID-19 Using CNN and Deep Learning
    2022 IEEE 11th International Conference on Communication Systems and Network Technologies, 2022.
  • Comparative Analysis of Skin Cancer Detection Using Classification Algorithms
    2023 IEEE 15th International Conference on Computational Intelligence and Communication Networks, 2023.
  • Prognosis for Crop Yield Production by Data Mining Techniques in Agriculture
    Applications of Image Processing and Soft Computing Systems in Agriculture, 2019.
  • A Survey on Energy-Efficient Hierarchical-Based Routing Protocols in Wireless Sensor Networks
    International Journal of Wireless and Mobile Communication for Industrial and Systems Engineering, 2019.
  • A Role of Enterprise Service Bus in Building Web Services
    Exploring Enterprise Service Bus in the Service-Oriented Architecture Paradigm, 2017.
  • A New Approach for Wireless Communication Security Protocol by Using Mutual Authentication
    Advanced Computing, 3(3), 31, 2012.
  • Neural Network-Based Soil Parameters Predictive Coordination Algorithm for Energy-Efficient Wireless Sensor Networks
    Communications in Soil Science and Plant Analysis, 2024.
  • Deep Learning Approach to Analyse, Detect, and Classify COVID-19 Patients
    New Trends in Mathematical Science, 1, 2021.
  • Effect of Contention Windows Size in Binary Exponential Backoff Algorithm
    2015 Second International Conference on Advances in Computing and Communication Engineering, 2015.
  • Energy-Efficient Clean and Green IT: Concepts and Approaches
    International Journal of Smart Home, 9(6), 65-70, 2015.
  • Soil Nutrient Analysis and Automatic Monitoring in Precision Agriculture
    Communications in Soil Science and Plant Analysis, 2024.
  • Identification of Personality Traits by Machine Learning Analysis of Signatures and Handwriting
    SN Computer Science, 5(5), 497, 2024.
  • Enhancing Feature Extraction in Plant Image Analysis through a Multilayer Hybrid DCNN
    International Journal of Intelligent Systems and Applications in Engineering, 2023.
  • Increasing Growth of Agriculture Using Efficient Wireless Sensor Network Systems
    (Details missing; please provide the publication venue and year for completion).

 

Xincheng Li | Agricultural Engineering | Best Researcher Award

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Prof Xincheng Li |  Agricultural Engineering |  Best Researcher Award

Associate Professor at  College of Electrical and Mechanical Engineering,Qingdao Agricultural University, China

Xingcheng Li is a Research Assistant at the College of Electrical and Mechanical Engineering, Qingdao Agricultural University. His research focuses on agricultural information technology, sensor development, intelligent agricultural machinery control, and automation technology in livestock and poultry farming. He has published over 10 academic papers, secured 5 national invention patents, and led key research projects at both provincial and national levels. With experience in teaching and developing innovative solutions in agricultural engineering, Li contributes to advancing technological applications in agriculture.

 

Publication Profile

Academic and Professional Background:

Xingcheng Li is a Research Assistant at Qingdao Agricultural University, specializing in agricultural engineering and information technology. He has taught various courses at both undergraduate and graduate levels, including Principles and Applications of Sensors, Agricultural Sensing, and Operations Research. His primary research interests include agricultural information technology, sensor development, intelligent agricultural machinery control, and automation in livestock and poultry farming.

Research and Innovations:

Prof. Li has contributed significantly to the development of agricultural technologies. He has published over 10 research papers and secured 5 national invention patents. His ongoing research includes projects on livestock and poultry disease prevention, as well as participation in key national and provincial R&D programs. Notably, he has led the Shandong Province Agricultural Major Application Technology Innovation Project and the Natural Science Foundation of Shandong Province.

Research Areas:

  • Agricultural Engineering
  • Mechanical Engineering
  • Agricultural Machinery and Equipment Engineering
  • Agricultural Engineering and Information Technology

Publication Top Notes

  1. A seed-epidermis-feature-recognition-based lightweight peanut seed selection method for embedded systems
    Li, D., Huang, J., Li, X., Xu, P., Yun, Y.
    Measurement and Control (United Kingdom), 2024.
    This paper introduces a lightweight peanut seed selection method based on seed-epidermis feature recognition, suitable for embedded systems in agricultural automation.
  2. Optimization Design and Experiment of Automatic Leveling System for Orchard Operating Platform in Hilly and Mountainous Areas
    Shang, H., Li, X., Zhang, C., Hou, Y., Jia, M.
    INMATEH – Agricultural Engineering, 2024, 73(2), pp. 364–374.
    Focuses on optimizing the design and conducting experiments on an automatic leveling system for orchard platforms in challenging terrains.
  3. Domestic Conflicts and Trade Protectionism: Evidence from Tweets
    Kun, L., Xincheng, L., Ming, F.
    China Journal of Economics, 2022, 9(1), pp. 56–84.
    Analyzes the relationship between domestic conflicts and trade protectionism, based on Twitter data analysis.
  4. Grain Yield Data Collection and Service for Heterogeneous Platforms
    Zheng, L., Guo, X., Li, M., Chen, Y., Xiao, C.
    Nongye Gongcheng Xuebao/Transactions of the Chinese Society of Agricultural Engineering, 2016, 32(9), pp. 142–149.
    This work discusses systems for collecting and providing grain yield data across different agricultural platforms.
  5. Test and Optimization of Sampling Frequency for Yield Monitor System of Grain Combine Harvester
    Li, X., Li, M., Zheng, L., Wang, X., Sun, M.
    Nongye Jixie Xuebao/Transactions of the Chinese Society for Agricultural Machinery, 2015, 46, pp. 74–78.
    Examines the optimization of sampling frequency for a grain yield monitor in combine harvesters.
  6. Modeling Algorithm for Yield Monitor System of Grain Combine Harvester
    Li, X., Sun, M., Li, M., Zhang, M., Wang, X.
    Nongye Jixie Xuebao/Transactions of the Chinese Society for Agricultural Machinery, 2015, 46(7), pp. 91–96.
    Proposes a modeling algorithm for improving the yield monitor system of grain combine harvesters.
  7. Development and Denoising Test of Grain Combine with Remote Yield Monitoring System
    Li, X., Li, M., Wang, X., Sun, M., Sun, H.
    Nongye Gongcheng Xuebao/Transactions of the Chinese Society of Agricultural Engineering, 2014, 30(2), pp. 1–8.
    This paper focuses on the development and testing of a grain combine equipped with a remote yield monitoring system.
  8. Structure Design and Signal Processing of a New Grain Flow Sensor
    Li, X., Li, M., Zheng, L., Yang, W., Sun, H.
    American Society of Agricultural and Biological Engineers Annual International Meeting, ASABE 2014, pp. 4330–4336.
    Presents the design and signal processing methods for a new grain flow sensor.
  9. A Remote Monitoring System of Automatic Soil Sampler Based on ZigBee WSN
    Yang, W., Li, M., Zheng, L., Li, X., Zhang, M.
    American Society of Agricultural and Biological Engineers Annual International Meeting, ASABE 2013, pp. 4023–4028.
    Describes a remote monitoring system for an automatic soil sampler based on ZigBee wireless sensor networks (WSN).
  10. A Remote Operating System of Grain Yield Monitor
    Li, X., Li, M., Zheng, L., Yang, W., Zhang, M.
    American Society of Agricultural and Biological Engineers Annual International Meeting, ASABE 2013, pp. 4091–4096.
    Introduces a remote operating system for monitoring grain yield during harvesting.

 

Filip Ilie | Agricultural Engineering | Excellence in Research

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Prof Dr Filip  Ilie |  Agricultural Engineering |  Excellence in Research

Professor at  Polytechnic University of Bucharest,  Romania

Prof. Dr. Filip Ilie is a distinguished University Professor at the Department of Machine Elements and Tribology at the National University of Science and Technology Politehnica Bucharest, formerly known as POLITEHNICA University of Bucharest. Since October 2007, he has been a leading figure in didactic and contract research, currently serving as the Director of the Center of Scientific Excellence (CESIT). His work emphasizes applied research in vector control, waste management, water quality, parasitology, and infectious diseases. With a strong focus on scientific advancement and collaborative efforts, Prof. Ilie is recognized for his significant contributions to his field and his leadership in promoting excellence in research.

Profile:

🗓️ Professional Experience:

  • Duration: Since October 2007
  • Roles: University Professor, Director of the Center of Scientific Excellence (CESIT)

🔬 Research and Contributions:

  • Sector: Didactic and contract research
  • Leadership: Oversees the Center of Scientific Excellence (CESIT)
  • Focus Areas: Applied research in machine elements, tribology, and scientific excellence

Publication Top Notes:

  • Computerized Penetrometry Methodology Assisted by Advanced Algorithms Applied in the Multi-dimensional Analysis of the Rheology of Mold-Ripened Cheeses and Its Impact on Food Product Quality
    Preprint, 2024-08-16
    DOI: 10.20944/preprints202408.1149.v1
    Contributors: George Ipate; Gratiela Florinela Pana; Filip Ilie
  • Structural and Tribological Analysis of Brake Disc–Pad Pair Material for Cars
    Applied Sciences, 2024-04-22
    DOI: 10.3390/app14083523
    Contributors: Filip Ilie; Andreea Catalina Cristescu
  • Study and Structural and Tribological Analysis of the Brake Disc-Pads Pair Material
    Preprint, 2024-03-12
    DOI: 10.20944/preprints202403.0674.v1
    Contributors: Filip Ilie; Andreea Catalina Cristescu
  • Numerical and Experimental Analysis of the Vacuum Corn Seed Degassing System
    Agriculture, 2024-03-01
    DOI: 10.3390/agriculture14030397
    Contributors: George Ipate; Filip Ilie; Viorel Fătu; Gheorghe Voicu
  • Study of the Grinding Process by Friction of Cereal Grains in Stone Mills
    Processes, 2023-12-06
    DOI: 10.3390/pr11123376
    Contributors: Filip Ilie; Constantin Daniel Cotici; Andrei-Florin Hristache
  • Experimental Study of the Correlation between the Wear and the Braking System Efficiency of a Vehicle
    Applied Sciences, 2023-07-13
    DOI: 10.3390/app13148139
    Contributors: Filip Ilie; Andreea-Catalina Cristescu
  • Establishing the Durability and Reliability of a Dental Bur Based on the Wear
    Materials, 2023-06-28
    DOI: 10.3390/ma16134660
    Contributors: Filip Ilie; Ioan Alexandru Saracin
  • Establishing the Durability and Reliability of a Dental Bur Based on the Wear
    Preprint, 2023-06-09
    DOI: 10.20944/preprints202306.0721.v1
    Contributors: Ilie Filip; Ioan Alexandru Saracin
  • Experimental Study of the Correlation between the Wear and the Braking System Efficiency of an Auto-Vehicle
    Preprint, 2023-06-02
    DOI: 10.20944/preprints202306.0215.v1
    Contributors: Ilie Filip; Andreea-Catalina Cristescu
  • The Effects of Friction and Temperature in the Chemical–Mechanical Planarization Process
    Materials, 2023-03-23
    DOI: 10.3390/ma16072550
    Contributors: Filip Ilie; Ileana-Liliana Minea; Constantin Daniel Cotici; Andrei-Florin Hristache
  • Tribological Properties Study of Solid Lubrication with TiO2 Powder Particles
    Materials, 2022-10-13
    DOI: 10.3390/ma15207145
    Contributors: Filip Ilie; George Ipate; Florentina Cristina Manaila
  • A Study on the Tribological Behavior of Molybdenum Disulfide Particles as Additives
    Coatings, 2022-08-25
    DOI: 10.3390/coatings12091244
    Contributors: Filip Ilie
  • Tribological Behavior of Friction Materials of a Disk-Brake Pad Braking System Affected by Structural Changes—A Review
    Materials, 2022-07-06
    DOI: 10.3390/ma15144745
    Contributors: Filip Ilie; Andreea-Catalina Cristescu
  • Study of Wear Phenomenon of a Dental Milling Cutter by Statistical–Mathematical Modeling Based on the Experimental Results
    Materials, 2022-03
    DOI: 10.3390/ma15051903
    Contributors: Filip Ilie; Saracin Ioan Alexandru; Gheorghe Voicu
  • A Modelling Study of the Correlation between the Layer Obtained by Selective Transfer and the Dislocations Movement at the Friction Surfaces Limit
    Metals, 2022-01
    DOI: 10.3390/met12020180
    Contributors: Filip Ilie; George Ipate
  • Diffusion and Mass Transfer Mechanisms During Frictional Selective Transfer
    International Journal of Heat and Mass Transfer, 2018
    DOI: 10.1016/j.ijheatmasstransfer.2017.09.083
    Contributors: Ilie, F.
  • A Method for Determining the Thickness of Tribological Performing Thin Layers Formed by Selective Transfer
    IOP Conference Series: Materials Science and Engineering, 2017
    DOI: 10.1088/1757-899X/174/1/012065
    Contributors: Ilie, F.; Chisiu, G.; Ipate, G.
  • Chemical-Mechanical Impact of Nanoparticles and pH Effect of the Slurry on the CMP of the Selective Layer Surfaces
    Lubricants, 2017
    DOI: 10.3390/lubricants5020015
    Contributors: Ilie, F.; Ipate, G.
  • Tribological Behavior of a Friction Couple Functioning with Selective Mass Transfer
    Heat and Mass Transfer/Waerme- und Stoffuebertragung, 2017
    DOI: 10.1007/s00231-016-1846-x
    Contributors: Ilie, F.
  • Investigation into the Effect of Concentration of Benzotriazole on the Selective Layer Surface in the Chemical Mechanical Planarization Process
    Journal of Materials Engineering and Performance, 2015
    DOI: 10.1007/s11665-015-1751-3
    Contributors: Ilie, F.; Laurian, T.
  • Tribological Study of Ecological Lubricants Containing Titanium Dioxide Nanoparticles
    Applied Mechanics and Materials, 2014
    DOI: 10.4028/www.scientific.net/AMM.658.323
    Contributors: Ilie, F.; Covaliu, C.; Chisiu, G.
  • Energy Dissipation During Adhesion and Friction at the Atomic Scale of MoS2 Nanoparticles on the Surface of MoS2
    Journal of Advanced Microscopy Research, 2013
    DOI: 10.1166/jamr.2013.1169
    Contributors: Ilie, F.
  • Movement and Collision of Nanoparticles in the Process of Chemical Mechanical Polishing (CMP)
    INMATEH – Agricultural Engineering, 2013
    Contributors: Ilie, F.

 

Feng Wu | Soil Engineering | Best Researcher Award

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Prof Feng Wu |  Soil Engineering |  Best Researcher Award

Professor at  North China University of Water Resources and Electric Power,  China

Feng Wu is a distinguished researcher for his expertise in the theory and technology of water-saving irrigation. Born on November 12, 1969, in China, Wu embarked on his academic journey by obtaining a Bachelor’s degree in Agricultural Water Conservancy Engineering from the College of Water Conservancy, North China University of Water Resources and Electric Power, in 1992. He furthered his education by pursuing a Master’s degree in Agricultural Water and Soil Engineering at the Chinese Academy of Agricultural Sciences and later earned his Ph.D. in Agricultural Water and Soil Engineering from Northwest A&F University.

Profile:

Education and Academic Achievements:

Dr. Feng Wu earned his Bachelor’s degree in Agricultural Water Conservancy Engineering from the College of Water Conservancy at North China University of Water Resources and Electric Power in 1992. He pursued further studies, obtaining a Master’s degree in Agricultural Water and Soil Engineering from the Chinese Academy of Agricultural Sciences in 2002. His academic journey culminated in a Ph.D. in Agricultural Water and Soil Engineering from Northwest A&F University in 2010. Dr. Wu has since become a leading figure in agricultural engineering in Henan Province, holding prestigious positions such as Ph.D./Master supervisor and serving as a backbone of North China University of Water Resources and Electric Power.

Professional Experience:

Dr. Wu’s illustrious career spans over three decades, starting as a Professor at the Chinese Academy of Agricultural Sciences in Henan, China, from 1993 to 2011. He then served as a Professor at the College of Water Conservancy at North China University of Water Resources and Electric Power until 2020, and currently continues his academic pursuits as a Professor at the College of Water Resources at the same institution. Throughout his career, he has successfully led numerous research projects and contributed significantly to the advancement of water-saving irrigation technology.

Research Contributions:

Dr. Wu’s primary research focus lies in the theory and technology of water-saving irrigation. He is renowned for his pioneering work in developing the Stalk Composite Pipe, a revolutionary subsurface irrigation product that optimizes water delivery and infiltration in agricultural fields. Over the past decade, he has led a dedicated research team in exploring various aspects of this technology, from green pipe development using crop stalks to the integration of machinery and equipment for manufacturing and installation. His comprehensive approach has resulted in the establishment of innovative underground irrigation techniques based on the Stalk Composite Pipe.

Soil Engineering Research Focus:

 

Dr. Feng Wu, a distinguished researcher in Agricultural Water and Soil Engineering, has made significant contributions to the field with a particular focus on soil engineering. Throughout his extensive academic career, Dr. Wu has demonstrated expertise in understanding soil properties and their implications for agricultural practices, especially in the context of water-saving irrigation.

His research endeavors have delved into various aspects of soil engineering, including soil structure analysis, soil-water interaction, and soil fertility management. Dr. Wu’s investigations have aimed to optimize soil conditions for crop growth while conserving water resources through innovative irrigation techniques.

One of his notable contributions is the development of underground irrigation technology based on the Stalk Composite Pipe, which not only optimizes water delivery and infiltration but also enhances soil structure and fertility. By integrating soil engineering principles into irrigation technologies, Dr. Wu has pioneered sustainable agricultural practices that promote both water conservation and soil health.

Furthermore, Dr. Wu’s expertise extends to soil erosion control and soil remediation strategies, where he has explored novel approaches to mitigate soil degradation and enhance land productivity.

Overall, Dr. Feng Wu’s research in soil engineering has significantly advanced our understanding of soil-water dynamics and has practical implications for sustainable agriculture and environmental stewardship.

 

Publication Top Notes:

  • Effects of Straw-based Composite Pipe Subsurface Irrigation on Growth and Water Use Efficiency of Winter Wheat
  • Effects of Fertilization Practices on the Metabolic Functions of Soil Microbial Communities under Subsurface Irrigation with Stalk Composite Pipe
  • Analysis of the Spatial-Temporal Distribution Characteristics of Climate and Its Impact on Winter Wheat Production in Shanxi Province, China, 1964–2018
  • Effects of Burial Furrow Parameters on Soil Water Movement under Subsurface Stalk Composite Pipe Irrigation
  • Position parameters of stalk composite pipe
  • Simulation optimization design of straw returning machine picker
  • Model for predicting the hydraulic elements of drip irrigation system with automatic flushing valves under high sediment water
  • Characteristics and Impacts of Water–Thermal Variation on Grain Yield in the Henan Province, China, on Multiple Time Scales
  • Early warning analysis of mountain flood disaster based on Copula function risk combination
  • Study on coordinated allocation of conventional and unconventional water resources in typical regions of North China

 

Patrícia Ferreira da Silva | Agricultural engineering | Women Researcher Award

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Prof Dr Patrícia Ferreira da Silva | Agricultural engineering | Women Researcher Award

Professor Doutor at  UFR , Women Researcher Award

Patricia Ferreira da Silva é uma especialista em Engenharia Agrícola, com uma carreira acadêmica e profissional destacada na área de Irrigação e Drenagem. Possui graduação em Agronomia pela Universidade Federal de Alagoas (2011), mestrado (2014) e doutorado (2017) em Engenharia Agrícola pela Universidade Federal de Campina Grande, e um pós-doutorado em Recursos Naturais (2018) pela mesma instituição. Sua pesquisa e atuação se concentram em temas como manejo de irrigação, hidráulica de emissores, reuso de água para fins agrícolas e resiliência em regiões semiáridas.

Profile:

🎓 Education:

PhD in Agricultural Engineering (2017), MSc in Agricultural Engineering (2014), Federal University of Campina Grande – Specializing in Irrigation and Drainage BSc in Agronomy (2011), Federal University of Alagoas

🔬 Research and Expertise:

Agricultural Engineering: Focus on irrigation, hydraulics, and drainage. Key Topics: Efficient water use, fertigation, salinity management, and sustainable agricultural practices

💼 Professional Experience:

Post-Doctorate in Natural Resources (2018), Federal University of Campina Grande. Teaching Experience: Substitute professor at Federal University of Campina Grande, teaching courses on irrigation systems, environmental chemistry, and agricultural law

📜 Notable Achievements:

Developed expertise in strategies for sustainable agriculture and improving agricultural practices in semi-arid regions

Research Focus in Agricultural Engineering 🌾

Irrigation and Drainage: Specializing in efficient irrigation systems, particularly drip and pressurized irrigation. Hydraulics: Studying the behavior and efficiency of water emitters, ensuring uniform water distribution. Water Reuse for Agricultural Purposes: Investigating methods to recycle and reuse water in agricultural practices. Soil-Water-Plant-Atmosphere Relationships: Understanding the interactions and dynamics between soil, water, plant growth, and atmospheric conditions. Water Resources in Semi-Arid Regions: Developing strategies to manage and utilize water resources effectively in semi-arid climates. Resilience and Vulnerability in Agriculture: Creating strategies to enhance resilience and reduce vulnerabilities in agricultural systems, particularly in challenging environments. Efficient Water Use: Promoting and developing practices for the optimal use of water resources in agriculture. Fertigation: Combining fertilization with irrigation to improve nutrient delivery and water use efficiency. Salinity Management: Addressing soil salinity issues to maintain crop health and productivity. Vegetable Production: Researching methods to enhance vegetable growth and yields through improved irrigation and fertigation techniques. Patricia’s work aims to optimize agricultural water use, improve irrigation practices, and enhance the sustainability and resilience of agricultural systems, particularly in semi-arid regions.

Publication Top Notes:

  1. The Importance of Using Sunscreen in Preventing Dermatological Changes in Workers Under Excessive Photoexposure
    • Year: 2017
    • Citations: 13
  2. Analysis of a School Inclusion Assessment Form
    • Year: 2011
    • Citations: 9
  3. Use of Climate Classification Systems for the Municipality of Barbalha-CE
    • Year: 2018
    • Citations: 8
  4. Growth and Productivity of Forage Cactus Under Different Irrigation Depths and Nitrogen Fertilization
    • Year: 2017
    • Citations: 8
  5. Commercial Production of Radish Fertigated with Nitrogen in a Protected Environment
    • Year: 2014
    • Citations: 8
  6. Moisture Content by Different Methods in Neosol from the Brazilian Semi-Arid
    • Year: 2017
    • Citations: 7
  7. Growth and Plant Mass of Radish Fertigated with Different Nitrogen Doses
    • Year: 2016
    • Citations: 7