Encyclopedia of Digital Agricultural Technologies

Tables of Content

1.      Alphabetical List

2.      Agricultural Technologies

3.      AI, Information and Communication Technologies

4.      Engineering and Mechanization Technologies

5.      Technologies for Crop Production

6.      Technologies for Animal and Aquatic Production

7.      Postharvest Technologies

8.       

Table of Content

A

Agent-based modeling in agriculture

Agricultural artificial intelligence (AI)

Agricultural aviation

Agricultural data mining

Agricultural disaster assessment

Agricultural Internaet of Things (IoT) and Cyber-Physical Systems (CPS)

Agricultural waste management

Animal building microclimate control

Animal feeding systems

Animal manure management

Animal phenotyping

Animal welfare monitoring

Aquatic Pest Control

AR & VR in agriculture

Autonomous (unmanned) farming

Auto-steering of field machinery

B

Big data technology in agriculture

Blockchain applications in agriculture

C

Chemigation and fertigation technologies

Climate-smart agriculture (including drought tolerance farming)

Computational modelling for postharvest grain handling and storage

Computer vision in agriculture

Controlled traffic farming

Controlled-Environment Agriculture

Crop disease control and management

Crop health sensing (nutrients, disease, and water strengths)

Crop phenotyping sensing

Crop Yield Estimation and prediction

D

Data visualization and visual analytics for agriculture

Data-driven management in agriculture

Decision support systems in agriculture

Digital agriculture

Digital pasture management

Digital twins in smart farming

Documentation and mapping of precision operations

Drive-by- and fly-by-wire technologies

E

E-Agriculture

Early detection of diseases for fruit trees

Economic and Financial Assessment and Adoption of Technology

Electrically powered machinery

Electronic nose technology

F

Farm management information systems (FMIS)

Field (wired or wireless) sensing networks

Field microclimate control

Fluorescence imaging technologies

Fruit grading systems and robots

Functional Safety of Ag Systems

Future systems sustainability and regenerative agriculture

G

Geospatial technologies in precision agriculture

GNSS assisted farming

Grain drying technologies

H

Harvesting technology for fruits and vegetables

Hatchery technologies

Human-in-the-loop technologies and human-machine interfaces

Hyper- and multi-spectral imaging technologies  

I

Image and video recognition for field phenotyping in agriculture

In-field sorting technologies

Integrated pest management

ISO bus technologies

L

Labor management in agriculture

Labor savings technologies

Levering data to generate production insights

M

Machine learning and deep learning platforms

Mechanical harvest technologies

Mechanized weed management

Milking robotics

Modeling tools for agriculture

Modelling of postharvest quality of horticultural products

N

Near-infrared technologies

O

On-farm weather and environmental data acquisition

On-the-go field sensing

P

Perennial crop frost control

Plant and animal wearable sensing technology

Plant factory technologies (including "soilless cropping?)

Postharvest handling systems

Postharvest storage technology for fruits and vegetables

Precision agriculture (including precision horticulture)

Precision aquaculture

Precision Livestock Farming

Product chemical residue and bacteria inspection

Product quality management

R

Raman spectroscopy and imaging technology

Real-time animal data modelling

Reducing or no-till farming

Regional distribution of animal manure nutrients

Remote and proximal sensing

RFID and traceability tag technologies

Robot as a Service (RaaS)

Robotic intelligence in agriculture

Robotics for animal management

S

Security in Smart Farming

Self-evolving smart agriculture

Semantic technology for agriculture

Sensors for postharvest quality evaluation and monitoring

Site-specific management

Smart animal management (including poultry)

Smart Irrigation

Soil and water sensing

Spatial and temporal variability analysis

Standardization and inspection, quality evaluation and control

Supervised or semi-autonomous agricultural machinery

Sustainable agriculture

T

Targeted spraying

Terahertz technology for agriculture

U

Urban agriculture (should vertical farming be part of it?)

V

Variable rate applications technology

W

Water-smart farming

Wearable robot technology

Wireless telecommunication technologies (1G -5G)

X

X-ray technology in agriculture

Y

Table of Content

Agricultural and farming services

Agricultural disaster assessment

Agricultural waste management

Animal manure management

Animal welfare monitoring

Control of agricultural diseases and insect pests

Controlled-Environment Agriculture

Crop load management in perennial crops

Cropping systems model

Economic and Financial Assessment and Adoption of Technology

Electronic nose technology

Functional Safety of Ag Systems

Future systems sustainability and regenerative ag

Integrated livestock and crops production

Integrated pest management

Mechanized and robotized agriculture

Nutrition management in crop production

Precision aquaculture

Precision Livestock Farming

Site-specific management

Smart animal management (including poultry)

Targeted spraying

Urban agriculture (should vertical farming be part of it?)

Water-smart farming

Table of Content

Agent-based modeling in agriculture

Agricultural artificial intelligence (AI)

Agricultural data mining

Animal phenotyping

AR & VR in agriculture

Big data technology in agriculture

Blockchain applications in agriculture

Computer vision in agriculture

Crop health sensing (nutrients, disease, and water strengths)

Crop phenotyping sensing

Crop Yield Estimation and prediction

Data-driven management in agriculture

Decision support systems in agriculture

Digital mapping of soil and vegetation

Digital pasture management

Digitalization of agricultural knowledge

Documentation and mapping of precision operations

E-Agriculture

Early detection of diseases for fruit trees

Field (wired or wireless) sensing networks

Fluorescence imaging technologies

Fruit grading systems and robots

Geospatial technologies in precision agriculture

Hyper- and multi-spectral imaging technologies

Image and video recognition for field phenotyping in agriculture

Levering data to generate production insights

Lidar technology applications in agriculture

Modeling tools for agriculture

Modelling of postharvest quality of horticultural products

Near-infrared technologies

On-farm weather and environmental data acquisition

Plant and animal wearable sensing technology

Product chemical residue and bacteria inspection

Product quality management

Raman spectroscopy and imaging technology

Reducing or no-till farming

Remote and proximal sensing

RFID and traceability tag technologies

Robot as a Service (RaaS)

Security in Smart Farming

Self-evolving smart agriculture

Semantic technology for agriculture

Sensors for postharvest quality evaluation and monitoring

Smart Irrigation

Soil and water sensing

Spatial and temporal variability analysis

Standardization and inspection, quality evaluation and control

Wireless telecommunication technologies (1G -5G)

X-ray technology in agriculture

Table of Content

Agricultural aviation

Animal building microclimate control

Autonomous (unmanned) farming

Auto-steering of field machinery

Chemigation and fertigation technologies

Climate-smart agriculture (including drought tolerance farming)

Controlled traffic farming

Coordinated robotic field operations

Drive-by- and fly-by-wire technologies

Electrically powered machinery

Fleet and swarm robotics

Fruit in-field grading systems

GNSS assisted farming

Grain drying technologies

Harvesting technology for fruits and vegetables

In-field sorting technologies

ISO bus technologies

Labor savings technologies

Mechanized weed management

Milking robotics

On-farm storage technologies

Plant factory technologies (including "soilless cropping?)

Postharvest handling systems

Postharvest storage technology for fruits and vegetables

Precision agriculture (including precision horticulture)

Robotics for animal management

Supervised or semi-autonomous agricultural machinery

UAV and applications in agriculture

Wearable robot technology

Table of Content

Agricultural data mining

Autonomous (unmanned) farming

Auto-steering of field machinery

Chemigation and fertigation technologies

Computational modelling for postharvest grain handling and storage

Controlled traffic farming

Coordinated robotic field operations

Crop disease control and management

Crop load management in perennial crops

Crop phenotyping sensing

Crop Yield Estimation and prediction

Cropping systems model

Drive-by- and fly-by-wire technologies

E-Agriculture

Early detection of diseases for fruit trees

Economic and Financial Assessment and Adoption of Technology

Electronic nose technology

Field microclimate control

Fleet and swarm robotics

Fruit grading systems and robots

GNSS assisted farming

Grain drying technologies

Harvesting technology for fruits and vegetables

In-field sorting technologies

Integrated pest management

ISO bus technologies

Labor savings technologies

Lidar technology applications in agriculture

Mechanized and robotized agriculture

Mechanized weed management

Modelling of postharvest quality of horticultural products

Nutrition management in crop production

On-the-go field sensing

Perennial crop frost control

Plant-machine interface (Crop for automation)

Postharvest handling systems

Product chemical residue and bacteria inspection

Product quality management

Raman spectroscopy and imaging technology

Reducing or no-till farming

Sensors for postharvest quality evaluation and monitoring

Site-specific management

Smart Irrigation

Soil and water sensing

Targeted spraying

Urban agriculture (should vertical farming be part of it?)

Variable rate applications technology

Table of Content

Animal feeding systems

Animal manure management

Animal phenotyping

Animal welfare monitoring

Digital pasture management

Hatchery technologies

Milking robotics

Precision aquaculture

Real-time animal data modelling

Regional distribution of animal manure nutrients

Robotics for animal management

sensors monitored animal health and feed efficiency

Sound-based monitoring of animals

Table of Content

Computational modelling for postharvest grain handling and storage

Electronic nose technology

Fruit in-field grading systems

In-field sorting technologies

Modelling of postharvest quality of horticultural products

Near-infrared technologies

Postharvest handling systems

Postharvest storage technology for fruits and vegetables

Product chemical residue and bacteria inspection

Product quality management

RFID and traceability tag technologies

Sensors for postharvest quality evaluation and monitoring

Standardization and inspection, quality evaluation and control

Terahertz technology for agriculture

The Editor-in-Chief, Qin Zhang, is the Director of the Center for Precision and Automated Agricultural Systems (CPAAS), and a Professor of Agricultural Automation in the Department of Biological Systems Engineering, of Washington State University (WSU). His research interests are in the areas of agricultural automation, agricultural robotics, and off-road equipment mechatronics. Prior to his current position, he was a faculty member at the University of Illinois at Urbana-Champaign, worked at Caterpillar Inc., and taught at Zhejiang Agricultural University in China. He has authored/edited 10 books, written dozens separate book chapters, edited three conference proceedings, published over 180 peer reviewed journal articles and 60+ other peer reviewed publications. He is the holder of 11 U.S. patents. He is currently serving as the Editor-in-Chief for Computers and Electronics in Agriculture. Dr. Qin Zhang is a Member of Washington State Academy of Science, a Fellow of International Academy of Agricultural and Biological Engineering (iAABE), a Fellow of the American Society of Agricultural and Biological Engineers (ASABE), a Full Member of the Club of Bologna (a World Task-force on the Strategies for the Development of Agricultural Mechanization), and an Honorary Vice President of the International Commission of Agricultural and Biological Engineering (CIGR). Dr, Zhang has guest lectured over 60 universities in more than 20 countries.