₹550.00 Original price was: ₹550.00.₹500.00Current price is: ₹500.00.
Authors : Dr. M.N. Kathiravan , Dr. M. Shanmugavadivu , Dr. K. Kalimuthu , Dr. P. Chidambara Rajan , Dr. M.A. Shibu .
The evolution of agriculture from traditional practices to a
technology-driven paradigm marks a significant shift in how we
produce and manage food. Precision Agriculture (PA), often
described as the future of farming, represents a transformative
approach that leverages technology to enhance efficiency,
productivity, and sustainability in agricultural practices. This table
of contents outlines a comprehensive exploration of the various
facets of modern agricultural technology, providing a roadmap for
understanding the depth and breadth of innovations reshaping the
industry.
The journey begins with a thorough introduction to Precision
Agriculture, tracing its historical roots and examining its global
adoption. This section provides a backdrop for understanding how
precision methods have evolved from rudimentary practices to
sophisticated systems that employ cutting-edge technology. By
comparing perspectives from different regions, including foreign
and Indian viewpoints, the content sets the stage for a deeper
appreciation of the varying implementations and impacts of PA. It
delves into the core components of Precision Agriculture, including
information, technology, and management systems.
Detailed discussions on essential tools and techniques such
as Global Positioning Systems (GPS), Geographic Information
Systems (GIS), and wireless sensor networks illustrate how these
technologies contribute to precise farming practices. The role of
agricultural drones, satellites, precision irrigation systems, and
software platforms is explored, highlighting how each tool enhances
different aspects of agricultural operations. As we progress, the
focus shifts to Smart Intelligent Precision Agriculture, which
integrates advanced concepts such as digitization and AI-driven
solutions. It discusses the transition to digital farming, the benefits
of intelligent systems in crop and soil management, and innovations
like smart irrigation and agricultural robots. The discussion
emphasizes how these technologies contribute to effective resource
management, disease prediction, and overall operational efficiency.
The table of contents also covers the implementation of
Wireless Sensor Networks (WSNs) and the Internet of Things (IoT)
in agriculture. Detailed analyses of sensor types, communication
standards, and the evolution of WSNs provide insights into how
these technologies facilitate real-time monitoring and data
collection. The architecture of IoT systems, their applications in
smart agriculture, and the challenges associated with their
implementation are thoroughly examined. Artificial Intelligence
(AI) and Machine Learning (ML) are pivotal in advancing
agricultural technology. The content explores the different
categories and subsets of AI, including machine learning, deep
learning, and natural language processing. The role of AI in
enhancing agricultural practices, from soil management to crop
prediction, is discussed in detail. The use of AI and ML in tracking
crop health, optimizing irrigation, and improving yield forecasts is
emphasized.
The importance of data in modern agriculture is highlighted
in the section on smart farming powered by data. This part addresses
how real-time data collection, predictive modeling, and analytics
transform raw data into actionable insights. It covers various
methodologies for processing and analyzing agricultural data,
emphasizing the role of big data in shaping future farming practices.
Decision support systems (DSS) play a crucial role in intelligent
farming. The content outlines the operations of analytical DSS and
how IoT, AI, and ML contribute to informed decision-making in
agriculture.
The future of agriculture, including trends like
nanotechnology, and edge-fog computing, is explored, providing a
glimpse into the next stages of agricultural innovation. Finally, it
addresses the economic and social impacts of technological
advancements in agriculture. It examines the cost- benefit analysis
of intelligent precision farming technologies, the propensity of
farmers to adopt these innovations, and the associated challenges.
Policy trends and regulatory considerations, particularly in India,
are discussed, offering a broader perspective on the implications of
these technologies. It sets the stage for a comprehensive
exploration of Precision Agriculture and its related technologies. It
aims to provide readers with a nuanced understanding of how
modern innovations are transforming agriculture, addressing both
the opportunities and challenges that lieahead in this dynamic field.
Format | Paperback |
---|---|
Language | English |