Advances in Agricultural Engineering Technologies and Application Volume I

Modernization in the agriculture sector is important to ensure food security and poverty alleviation, which are the primary themes of UN-SDGs. There are many challenges in developing advanced agricultural techniques, tools, and systems, by which sustainable agriculture and food security can be satis...

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Bibliographic Details
Main Author: Sultan, Muhammad
Other Authors: Shamshiri, Redmond R., Ahamed, Md Shamim, Farooq, Muhammad
Format: eBook
Language:English
Published: Basel MDPI - Multidisciplinary Digital Publishing Institute 2023
Subjects:
Cam
Dem
Online Access:
Collection: Directory of Open Access Books - Collection details see MPG.ReNa
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100 1 |a Sultan, Muhammad 
245 0 0 |a Advances in Agricultural Engineering Technologies and Application  |h Elektronische Ressource  |b Volume I 
260 |a Basel  |b MDPI - Multidisciplinary Digital Publishing Institute  |c 2023 
300 |a 1 electronic resource (542 p.) 
653 |a computational fluid dynamics 
653 |a pick-up device 
653 |a planting uniformity 
653 |a automatic cuttage 
653 |a pig house 
653 |a computational fluid dynamics (CFD) 
653 |a PID control 
653 |a LightGBM 
653 |a online non-destructive detection 
653 |a venlo greenhouse 
653 |a bulb form 
653 |a monitoring system 
653 |a finite element 
653 |a bearing fault 
653 |a genetic algorithm 
653 |a large scale solar 
653 |a anaerobic digestion 
653 |a single-bud 
653 |a building energy simulation 
653 |a emission 
653 |a deep learning 
653 |a antioxidant potential 
653 |a Cyperus esculentus plant 
653 |a mechanization 
653 |a pipe diameter 
653 |a kinematical analysis 
653 |a hot airflow 
653 |a water stress 
653 |a milk powder 
653 |a spices 
653 |a optimization design 
653 |a agricultural activated carbon 
653 |a surface water content 
653 |a corn seeds 
653 |a operation frequency 
653 |a tea bud detection 
653 |a step-up converter 
653 |a routing transmission algorithm 
653 |a modification 
653 |a OPVSM 
653 |a artificial neural network 
653 |a cutting energy consumption 
653 |a fatigue test 
653 |a precision fertilizer application 
653 |a single-chip microcomputer 
653 |a nursery pig 
653 |a sound waveform 
653 |a collision recovery coefficient 
653 |a F-ASHP model 
653 |a proximate 
653 |a SSR markers 
653 |a rotation irrigation sectoring 
653 |a pose estimation 
653 |a agriculture advancement 
653 |a somatic embryogenesis 
653 |a seed-filling 
653 |a maturity classification 
653 |a working parameters 
653 |a force feedback 
653 |a wet rice 
653 |a hyperspectral image 
653 |a paneer 
653 |a fungus gnats 
653 |a UV-A LED 
653 |a feature contribution 
653 |a fault diagnosis method 
653 |a storage 
653 |a watermelon 
653 |a industrial hemp 
653 |a dynamic motion 
653 |a vertical expansion 
653 |a EDEM simulation 
653 |a pipe connector 
653 |a flexible 
653 |a Chrysanthemum indicum L. 
653 |a nano-activated carbon 
653 |a closed-loop control 
653 |a agrivoltaic 
653 |a lightweight neural networks 
653 |a image classification 
653 |a plain straight blade 
653 |a tractor-trailer 
653 |a network topology 
653 |a single-span plastic greenhouse 
653 |a adsorption 
653 |a static friction coefficient 
653 |a data analysis and discussion 
653 |a air-feeding seed discharge system 
653 |a three-factor regression analysis 
653 |a seed tube 
653 |a natural cooling 
653 |a EMP-ZBR 
653 |a network cost 
653 |a hydraulic characteristics 
653 |a adhesion 
653 |a conservation tillage technology 
653 |a diesel engine 
653 |a seed-metering 
653 |a ultrasonic feature 
653 |a seedling picking test 
653 |a power grid 
653 |a energy cost 
653 |a verification 
653 |a depth camera 
653 |a interaction mechanism 
653 |a factory in a box 
653 |a natural ventilation 
653 |a ditching device 
653 |a agri-food security 
653 |a prediction models 
653 |a cavitation 
653 |a agricultural waste 
653 |a eave height 
653 |a photovoltaic module 
653 |a Simulink 
653 |a Codonopsis planting 
653 |a parameter optimization 
653 |a intelligent seeding 
653 |a imputation 
653 |a simulation 
653 |a CROPWAT 
653 |a pineapple 
653 |a model predictive control 
653 |a XGBoost 
653 |a YOLOv5 
653 |a verification experiment 
653 |a sustainable farm 
653 |a LED lighting system 
653 |a agricultural sensor network 
653 |a onion 
653 |a LCC area 
653 |a canopy leaf area density 
653 |a numerical simulation 
653 |a sustainable development goals 
653 |a contact parameters 
653 |a billet planter 
653 |a pretreatment 
653 |a climbing angle 
653 |a PSO optimization algorithm 
653 |a mechanical equipment 
653 |a greenhouse technologies 
653 |a energy saving 
653 |a ultrasonic echo signal 
653 |a minimum suspension speed 
653 |a trajectory planning 
653 |a hydraulic performance 
653 |a field test 
653 |a tillage depth adjustment 
653 |a wastewater treatment 
653 |a sustainability 
653 |a tangential threshing 
653 |a rape windrower 
653 |a electro-hydraulic hitch system 
653 |a Technology, engineering, agriculture / bicssc 
653 |a solar air heater (SAH) 
653 |a maximum shear force 
653 |a machine learning 
653 |a multi-point collision 
653 |a single-bud billet 
653 |a FFT demodulation 
653 |a transplanting 
653 |a automated farming 
653 |a simulation design 
653 |a multi-arch greenhouses 
653 |a potato planter 
653 |a storage pen 
653 |a technology 4.0 
653 |a efficient power take-off 
653 |a walking performance 
653 |a solid-fertilizer-dissolving device 
653 |a cavity planter 
653 |a longitudinal axial flow 
653 |a adoption of time persistence 
653 |a fuzzy PID 
653 |a differential inverse gearbox 
653 |a order analysis 
653 |a structure of plant stems 
653 |a arch shed 
653 |a cropping pattern 
653 |a sump 
653 |a quality characteristics 
653 |a organogenesis 
653 |a forecasting system 
653 |a temperature humidity index (THI) 
653 |a sensory evaluation 
653 |a fine-grained 
653 |a CAM 
653 |a discrete duration model 
653 |a flexible model 
653 |a DEM-CFD 
653 |a dispersion characteristic 
653 |a attention mechanism 
653 |a vibration analysis 
653 |a Research & information: general / bicssc 
653 |a random vibration analysis 
653 |a Biology, life sciences / bicssc 
653 |a air-blast sprayer 
653 |a plant leaf diseases 
653 |a combine harvester 
653 |a performance optimization 
653 |a staggered threshing element 
653 |a cotton stalk particles 
653 |a EDEM 
653 |a CycleGAN 
653 |a up-cut rotary blade 
653 |a irrigation and drainage system 
653 |a vegetable greenhouses 
653 |a Ananas comosus 
653 |a composition 
653 |a strip tillage 
653 |a maize 
653 |a highly efficient soil return 
653 |a trajectory tracking 
653 |a key components 
653 |a stubble-crushing 
653 |a soil 
653 |a wheel-track high clearance chassis 
653 |a computer simulation 
653 |a microwave 
653 |a sonication 
653 |a characteristic dimensions 
653 |a improved particle swarm algorithm 
653 |a ECA attention 
653 |a broiler house 
653 |a agricultural drying 
653 |a discrete element method 
653 |a arch cross type 
653 |a edge curve 
653 |a light trap 
653 |a orthogonal test 
653 |a tillage depth control algorithm 
653 |a open-world 
653 |a jet-driven Helmholtz oscillator 
653 |a precision spraying 
653 |a entropy production 
653 |a calibration 
653 |a BP neural network 
653 |a agricultural engineering 
653 |a soil bin test 
653 |a bionic blade 
653 |a gas-solid two-phase flow 
653 |a self-assembly 
653 |a nonparametric K-M survival analysis method 
653 |a uplift resistance 
653 |a pumping station 
653 |a spray control parameter 
653 |a continuous pipe foundation 
653 |a institutional design 
653 |a feature extraction 
653 |a information and communication technologies 
653 |a AdaBoost 
653 |a aerogels 
653 |a seed metering device 
653 |a ultrasonic sensor 
653 |a tractor 
653 |a millet threshing device 
653 |a zea mays 
653 |a liquid fertilizer deep application technique 
653 |a micro rotary tubular concave screen 
653 |a synergistic effects 
653 |a mushroom pests 
653 |a cantaloupe bowl seedlings transplanting 
653 |a resistance to the typhoon 
653 |a robust sliding mode control 
653 |a recurrent neural network 
653 |a backyard farming 
653 |a stretchable style 
653 |a soil cultivation 
653 |a seedbed preparation 
653 |a artificial intelligence 
653 |a micropropagation 
653 |a irrigation cost 
653 |a DEM 
653 |a surface water availability 
653 |a porous materials 
653 |a response surface methodology 
653 |a laser fly control 
653 |a fertilization uniformity 
653 |a equality 
653 |a bulb tubular pump 
653 |a environmental monitoring 
653 |a smart agriculture 
653 |a prescribed performance 
653 |a vertical farming 
653 |a PLSR model 
653 |a heat stress index 
653 |a post-harvest losses 
653 |a ISSR markers 
653 |a machine condition 
700 1 |a Shamshiri, Redmond R. 
700 1 |a Ahamed, Md Shamim 
700 1 |a Farooq, Muhammad 
041 0 7 |a eng  |2 ISO 639-2 
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500 |a Creative Commons (cc), https://creativecommons.org/licenses/by/4.0/ 
024 8 |a 10.3390/books978-3-0365-9375-3 
856 4 0 |u https://www.mdpi.com/books/pdfview/book/8246  |7 0  |x Verlag  |3 Volltext 
856 4 2 |u https://directory.doabooks.org/handle/20.500.12854/128781  |z DOAB: description of the publication 
082 0 |a 630 
082 0 |a 610 
082 0 |a 333 
082 0 |a 380 
082 0 |a 363 
082 0 |a 000 
082 0 |a 580 
082 0 |a 700 
082 0 |a 600 
082 0 |a 620 
520 |a Modernization in the agriculture sector is important to ensure food security and poverty alleviation, which are the primary themes of UN-SDGs. There are many challenges in developing advanced agricultural techniques, tools, and systems, by which sustainable agriculture and food security can be satisfied. Worldwide, agricultural mechanization and modernization can be attained with advancements in agricultural engineering technologies and their associated applications. The concept is directly linked to the technological advancements in agricultural automation and robotics; precision agriculture; high-efficiency irrigation systems; farm energy systems; handling, storage, and processing of agricultural products; livestock and poultry sheds; farm water/wastewater management; biomass, biogas, and biochar; remote sensing and geographical studies; societal aspects in agriculture; and the associated bioenvironment. Such advances in agricultural engineering technologies and applications are the need of the 21st century, particularly from the viewpoint of the agricultural water-energy-food security nexus. Therefore, this Special Issue comprises original research and review studies in the abovementioned research areas.