Sensors in Agriculture . Volume 2

(Visualizza in formato marc)    (Visualizza in BIBFRAME)

Autore:	Moshou Dimitrios
Titolo:	Sensors in Agriculture . Volume 2
Pubblicazione:	MDPI - Multidisciplinary Digital Publishing Institute, 2019
Descrizione fisica:	1 electronic resource (354 p.)
Soggetto non controllato:	optical sensor
	spectral analysis
	response surface sampling
	sensor evaluation
	electromagnetic induction
	multivariate water quality parameters
	mandarin orange
	crop inspection platform
	SPA-MLR
	object tracking
	feature selection
	simultaneous measurement
	diseases
	genetic algorithms
	processing of sensed data
	electrochemical sensors
	thermal image
	ECa-directed soil sampling
	handheld
	recognition patterns
	salt concentration
	clover-grass
	bovine embedded hardware
	weed control
	soil
	field crops
	vineyard
	connected dominating set
	water depth sensors
	SS-OCT
	wheat
	striped stem-borer
	silage
	geostatistics
	detection
	NIR hyperspectral imaging
	electronic nose
	machine learning
	virtual organizations of agents
	packing density
	data validation and calibration
	dataset
	Wi-SUN
	temperature sensors
	geoinformatics
	gas sensor
	X-ray fluorescence spectroscopy
	vegetable oil
	photograph-grid method
	Vitis vinifera
	WSN distribution algorithms
	laser-induced breakdown spectroscopy
	irrigation
	quality assessment
	energy efficiency
	wireless sensor network (WSN)
	geo-information
	Fusarium
	texture features
	weeds
	discrimination
	big data
	soil moisture sensors
	meat spoilage
	land cover
	stereo imaging
	near infrared sensors
	biological sensing
	compound sensor
	pest management
	moisture
	plant localization
	heavy metal contamination
	artificial neural networks
	spectral pre-processing
	moisture content
	apparent soil electrical conductivity
	data fusion
	semi-arid regions
	smart irrigation
	back propagation model
	wireless sensor network
	energy balance
	light-beam
	fluorescent measurement
	agriculture
	precision agriculture
	deep learning
	spectroscopy
	hulled barely
	dielectric probe
	RPAS
	water supply network
	rice leaves
	mobile app
	gradient boosted machines
	hyperspectral camera
	one-class
	nitrogen
	LiDAR
	total carbon
	chemometrics analysis
	rice
	agricultural land
	on-line vis-NIR measurement
	CARS
	obstacle detection
	stratification
	neural networks
	regression estimator
	Kinect
	proximity sensing
	distributed systems
	pest
	noninvasive detection
	texture feature
	soil mapping
	classification
	soil salinity
	visible and near-infrared reflectance spectroscopy
	germination
	computer vision
	hyperspectral imaging
	diffusion
	dielectric dispersion
	UAS
	random forests
	case studies
	total nitrogen
	thermal imaging
	cameras
	dry matter composition
	near-infrared
	salt tolerance
	deep convolutional neural networks
	soil type classification
	water management
	preprocessing methods
	wireless sensor networks (WSN)
	remote sensing image classification
	precision plant protection
	radar
	spatial variability
	GF-1 satellite
	plant disease
	naked barley
	leaf area index
	CIE-Lab
	change of support
	radiative transfer model
	3D reconstruction
	plant phenotyping
	vine
	near infrared
	vegetation indices
	remote sensing
	greenhouse
	time-series data
	scattering
	sensor
	crop area
	speckle
	spatial data
	grapevine breeding
	wide field view
	partial least squares-discriminant analysis
	spiking
	area frame sampling
	chromium content
	machine-learning
	RGB-D sensor
	pest scouting
	PLS
	Capsicum annuum
	spatial-temporal model
	drying temperature
	boron tolerance
	ambient intelligence
	laser wavelength
	fuzzy logic
	dynamic weight
	landslide
	management zones
	real-time processing
	event detection
	crop monitoring
	apple shelf-life
	rice field monitoring
	wireless sensor
	birth sensor
	proximal sensor
Sommario/riassunto:	Agriculture requires technical solutions for increasing production while lessening environmental impact by reducing the application of agro-chemicals and increasing the use of environmentally friendly management practices. A benefit of this is the reduction of production costs. Sensor technologies produce tools to achieve the abovementioned goals. The explosive technological advances and developments in recent years have enormously facilitated the attainment of these objectives, removing many barriers for their implementation, including the reservations expressed by farmers. Precision agriculture and ‘smart farming’ are emerging areas where sensor-based technologies play an important role. Farmers, researchers, and technical manufacturers are joining their efforts to find efficient solutions, improvements in production, and reductions in costs. This book brings together recent research and developments concerning novel sensors and their applications in agriculture. Sensors in agriculture are based on the requirements of farmers, according to the farming operations that need to be addressed.
Titolo autorizzato:	Sensors in Agriculture
ISBN:	3-03897-745-4
Formato:	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione:	Inglese
Record Nr.:	9910346858903321
Lo trovi qui:	Univ. Federico II
Opac:	Controlla la disponibilità qui