Application of Smart Technology and Equipment in Horticulture

Horticulture, as an important component of modern agriculture, plays a significant role in beautifying the environment but also in enriching human nutrition [1]. With the widespread application of intelligent devices in various aspects of agriculture, horticulture, which requires more refined management and operations, is also moving towards intelligence and intensification [2]. Therefore, developing intelligent technologies and equipment that can assist in horticulture, beautify the environment, and support plant cultivation and breeding has become a current research focus [3]. This Special Issue, “Application of Intelligent Technology and Equipment in Horticulture”, highlights the latest intelligent technologies and equipment in areas such as environmental beautification, agricultural intensification, and plant species cultivation.

Machine learning and deep learning technologies have vast potential in horticulture, and this Special Issue explores some specific application scenarios. By analyzing large amounts of data, machine learning algorithms can help farmers anticipate crop diseases and optimize prevention plans, thereby reducing the use of chemical agents and protecting the ecological environment [4]. Additionally, the application of machine learning in soil and underground structure detection can help improve planting schemes, enhance soil utilization efficiency, and increase crop yields. Through advanced image recognition technology, deep learning algorithms can achieve real-time monitoring and management of key stages such as crop growth, pest and disease control, and flowering periods.

The application of intelligent devices and sensor technology in horticulture allows for real-time monitoring and regulation of environmental parameters and crop growth conditions. These devices can provide precise data support, helping farmers optimize planting strategies, improve resource utilization efficiency, and reduce waste [5]. This Special Issue includes research on the application of sensors in horticulture. For example, wearable sensor technology can monitor the moisture and nutrient status of plants in real-time, allowing for timely adjustments to irrigation and fertilization plans, thereby ensuring the healthy growth of crops.

Plant growth simulation and management optimization technology are additional research focuses of this Special Issue. By establishing mathematical models and simulation algorithms, it is possible to accurately predict and manage various parameters during the crop growth process. This helps farmers better understand the growth patterns of crops and optimize planting density, fertilization amounts, and irrigation frequency, thereby improving crop yield and quality. Additionally, these simulation models can be used for new variety breeding and cultivation technique improvements, promoting the development of horticultural production towards more scientific and precise methods [6].

This Special Issue showcases the multifaceted applications of intelligent technology and equipment in horticulture, covering several cutting-edge fields such as artificial intelligence, deep learning, sensor technology, and plant growth simulation. Through these studies, various aspects of horticultural production are optimized, not only enhancing production efficiency and crop quality but also promoting the precision and intelligence of horticultural management. In the future, with the continuous advancement of intelligent technology, the horticulture sector will experience more innovations and transformations, providing robust technical support for the sustainable development of modern agriculture. The widespread adoption of intelligent devices and the increased success rate of breeding will further promote the intelligent and intensive development of horticulture [7].