workshop on innovations of irrigation technology one of
Post on 18-Nov-2021
4 Views
Preview:
TRANSCRIPT
30-05-2018
1
WORKSHOP
on Innovations of
Irrigation
Technology
Beijing, 12th – 15th April 2018
INNOVATIONS OF IRRIGATION TECHNOLOGY IN ITALY – EUROPE
Marco Arcieri
Secretary General – ICID Italy
@ photo Arthus-Bertrand
One of the major questions in the future is whether there will be sufficientfreshwater to satisfy the growing needs of agricultural and non-agricultural users.
Aqueduct Claudio - Italy
30-05-2018
2
Aqueduct Pont du Gard - Nimes - France Aqueduct Segovia - Spain
Aqueduct Neria - Spain Aqueduct Tomar - Portugal
30-05-2018
3
Aqueduct Cesarea - Israel
One of the most important Roman citiesserved by aqueducts at that time was certainlyPompeii.
THE BASILICA CISTERN IN NAPLES: THE PISCINA MIRABILIS
PISCINA MIRABILIS
THE BASILICA CISTERN IN FERMO (Ascoli Piceno)
30-05-2018
4
THE BASILICA CISTERN IN ISTANBUL
IRRIGATION AND DRAINAGE IN THE MEDITERRANEAN
AVERAGE ANNUAL RAINFALL IN ITALY AVERAGE ANNUAL EVAPOTRANSPIRATION IN ITALY
30-05-2018
5
IRRIGATION NETWORKS IRRIGATION SYSTEMS
WATER RESOURCES IN ITALY (109 m3) GEOGRAPHICAL DISTRIBUTION OF WATER RESOURCES IN ITALY
Area 109 m3 %
Northern Italy 65 59
Central Italy 20 18
Southern Italy 20 18
Islands 5 5
Total 110 100
30-05-2018
6
GEOGRAPHICAL DISTRIBUTION OF WATER RESOURCES IN ITALY
Area 109 m3 %
Northern Italy 65 59
Central Italy 20 18
Southern Italy 20 18
Islands 5 5
Total 110 100
GEOGRAPHICAL DISTRIBUTION OF WATER RESOURCES IN ITALY
Area 109 m3 %
Northern Italy 65 59
Central Italy 20 18
Southern Italy 20 18
Islands 5 5
Total 110 100
WATER DEMAND IN ITALY
Year 90’s Year 00’s
USE 109 m3 % 109 m3 %
Families 8 16 7,9 19,6
Industry 12 24 8,0 19,7
Energy _ _ 4,5 11,1
Agriculture 30 60 20,1 49,6
Total 50 100 40,6 100
WATER DEMAND IN ITALY
Year 90’s Year 00’s
USE 109 m3 % 109 m3 %
Families 8 16 7,9 19,6
Industry 12 24 8,0 19,7
Energy _ _ 4,5 11,1
Agriculture 30 60 20,1 49,6
Total 50 100 40,6 100
30-05-2018
7
Land reclamation and Irrigation Consortiarealize integrated water management oncatchment basis, protecting rural and urbanland.
IRRIGATION FEATURES
IRRIGATION AND DRAINAGE IN ITALY
Land reclamation and Irrigation Consortiarealize integrated water management oncatchment basis, protecting rural and urbanland.• 80% of Italian agricultural production comesfrom drained and irrigated areas.
IRRIGATION FEATURES
IRRIGATION AND DRAINAGE IN ITALY
Land reclamation and Irrigation Consortiarealize integrated water management oncatchment basis, protecting rural and urbanland.• 80% of Italian agricultural production comesfrom drained and irrigated areas.• 145 Consortia are active all over Italy.
IRRIGATION AND DRAINAGE IN ITALY
IRRIGATION FEATURES
Land reclamation and Irrigation Consortiarealize integrated water management oncatchment basis, protecting rural and urbanland.• 85% of Italian agricultural production comesfrom drained and irrigated areas.• 145 Consortia are active all over Italy.• 17,672,565 hectares (59% of Italy’s area) arelocated in Consortia districts.
IRRIGATION AND DRAINAGE IN ITALY
IRRIGATION FEATURES
30-05-2018
8
Land reclamation and Irrigation Consortiarealize integrated water management oncatchment basis, protecting rural and urbanland.• 85% of Italian agricultural production comesfrom drained and irrigated areas.• 145 Consortia are active all over Italy.• 17,672,565 hectares (59% of Italy’s area) arelocated in Consortia districts.•7,000,000 hectares under drainage(1,200,000 hectares depending on pumpingstations).
IRRIGATION AND DRAINAGE IN ITALY
IRRIGATION FEATURES
Land reclamation and Irrigation Consortiarealize integrated water management oncatchment basis, protecting rural and urbanland.• 85% of Italian agricultural production comesfrom drained and irrigated areas.• 145 Consortia are active all over Italy.• 17,672,565 hectares (59% of Italy’s area) arelocated in Consortia districts.•7,000,000 hectares under drainage(1,200,000 hectares depending on pumpingstations).• 3,300,000 hectares under irrigation.6% submersion irrigation (for rice cultivation)23% flooding irrigation (gravity)51% under pressure (sprinkler) irrigation20% drip irrigation
IRRIGATION AND DRAINAGE IN ITALY
IRRIGATION FEATURES
Land reclamation and Irrigation Consortiarealize integrated water management oncatchment basis, protecting rural and urbanland.• 85% of Italian agricultural production comesfrom drained and irrigated areas.• 145 Consortia are active all over Italy.• 17,672,565 hectares (59% of Italy’s area) arelocated in Consortia districts.•7,000,000 hectares under drainage(1,200,000 hectares depending on pumpingstations).• 3,300,000 hectares under irrigation.6% submersion irrigation (for rice cultivation)23% flooding irrigation (gravity)51% under pressure (sprinkler) irrigation20% drip irrigation• 181,312 km: total length of drainage andirrigation canals.
IRRIGATION AND DRAINAGE IN ITALY
IRRIGATION FEATURES
POPULATION IN THE MEDITERRANEAN COUNTRIES
SOURCE:
PLAN BLUE, 2005
DISTRIBUTION OF WATER RESOURCES IN THE MEDITERRANEAN COUNTRIES
66%
24%
10%
30-05-2018
9
POPULATION INCREASE AND WATER WITHDRAWAL
SOURCE:
PLAN BLUE, 2005
300
350
400
450
500
550
1995 2000 2005 2010 2015 2020 2025 2030
Inh
ab
ita
nts
(Mil
lion
s)
Years
POPULATION IN THE MEDITERRANEAN COUNTRIES
SOURCE:
PLAN BLUE, 2005
POPULATION IN THE MEDITERRANEAN COUNTRIES
SOURCE:
PLAN BLUE, 2005
0
100
200
300
400
500
600
1995 2000 2005 2010 2015 2020 2025 2030
Po
pu
lati
on
(millio
n)
An
NORTH
SOUTH-EAST
TOTAL
SOURCE:
PLAN BLEU, 2005
WATER DEMAND PER SECTOR IN THE MEDITERRANEAN COUNTRIES
ELABORATION:
30-05-2018
10
Agriculture is the mainconsumer of freshwater inthe Mediterranean Region
In order to save this preciousresource, we need to reconsiderWater Management and think ofNEW innovative approaches.
Improvement of the performance of Irrigation Networks - Systems
UPGRADE WATER USE EFFICIENCYBY MEANS OF:
Assessment of crop waterrequirements
Irrigation Scheduling
Results of Research carried out in the last forty years have enabled the development
of methodologies and technologies that allow sufficiently enough precise crop water
requirements assessment for water scheduling, especially at the farm level .
30-05-2018
11
SYSTEM DEVELOPER METHODOLOGY
IRRIFRAME ANBI Hydrological balance
ET0 : HG/PM
IRRISAT Ariespace srl Satellite Images
ET0 : PM
IRRISIAS Regione Sicilia Hydrological balance
ET0 : PM
IRRITRE Trentino Hydrological balance
ET0 : HG
IRRINET Sardegna ARPAS Hydrological balance
ET0 : (?)
IRRI.IT/ARSIA Regione Toscana Hydrological balance
ET0 : HG
Water Scheduling Expert Systems operating in Italy Validation and implementation of these innovations at field level (testing, scalingup, demonstration, training) are still going on.
S.I.S. Smart Irrigation System is an ultimate monitoring system for thesustainable management of water resources and the planning ofirrigation.
Innovative technology applied for management, remote control and data acquisition of irrigation systems
Smart Irrigation SystemSMART IRRIGATION SYSTEM
Smart Irrigation System
• Follows the guide lines of MIPAAF approved by D.M. 31st July 2015• Enables data transmission of volumes measured to GIS - SIGRIAN• Is eligible for financial support by PSRN 2014/20 - Measure 4.3 -
Irrigation Investments
Higher Productivity & Control
Development & Elaboration ofmultidisciplinary information
Data collection and availability
Sustainable use of waterresources
Operating Costs
Water Losses
Service Failures
«Crash» of the system
30-05-2018
12
Smart Irrigation System
Efficiency
Productivity
Competitiveness
Quality
Sustainable use of water resources
Management costs
Main goals are: Very often problems in Irrigation Management are
can help to take operative and strategic decisions
has beenconceived in order to monitor and managethe huge amount of data passing throughoperating systems, as a consequence ofwater delivery in irrigation networks.
Wat
er
avai
lab
ilit
y
Smart Irrigation System
Stakeholders’ expectations
Water Manager
Water SupplyManagement CostsEnergy SavingIrrigation Scheduling Territorial Planning
Farmer
Crop Quality Irrigation AdviseControl of irrigationHigher YieldsLess subsidence
Remote Control Systems
Automated Delivery Groups
Hydraulic Equipment
Water saving
Community
Sustainable use of water ResourcesProtection of the EnvironmentPreservation of the Landscape Economic and Social Development
Decision Support System
Stakeholders’ expectations
Water Manager
Water SupplyManagement CostsEnergy SavingIrrigation Scheduling Territorial Planning
Farmer
Crop Quality Irrigation AdviseControl of irrigationHigher YieldsLess subsidence
Remote Control Systems
Automated Delivery Groups
Hydraulic Equipment
Environmental Sustainability
Community
Sustainable use of water ResourcesProtection of the EnvironmentPreservation of the Landscape Economic and Social Development
Decision Support System
30-05-2018
13
Smart Irrigation System
Remote Control
Systems
Automated
Delivery Groups
Hydraulic
Equipment
Environmental
Sustainability
Decision
Support System
Primary Intake
Secondary Intake
CONTROL CENTRE
Ø 4
00-
50
0
Primary Intake
ø 200-250
HYDROPASS
Ist & IInd
Level
IIIrd Level
IVth Level
Ø 1200-1000
Secondary Intake
Finaluser
FLO
W M
ETER
S
CONTROL CENTRE
RTURTU
RTU
S642
Smart Irrigation System
CONTROL CENTRE
Remote Control
Systems
Hydraulic
Equipment
Environmental
Sustainability
Decision Support
System
Primary Intake
Smart Irrigation System
Ist & IInd
Level
Automated
Delivery Groups
Primary Intake
SecondaryIntake
Remote Control
Systems
Automated
Delivery Groups
Hydraulic
Equipment
Environmental
Sustainability
Decision Support
System
CONTROL CENTRE
Smart Irrigation System
IIIrd Level
IVth Level
30-05-2018
14
How to to irrigate, when and with how much water ?Primary Intake
SecondaryIntake
MeteoStation
Remote Control
Systems
Automated
Delivery Groups
Hydraulic
Equipment
Environmental
Sustainability
Decision Support
System
CONTROL CENTRE
Smart Irrigation System
IIIrd Level
IVth Level
GIS Data
Delivery
HYDROPASS
S642
Ø 4
00-
50
0
ø 200-250
Ø 1200-1000
Ist & IInd
Level
IIIrd Level
IVth Level
Secondary Outlet
Main conduct
FLO
W M
ETER
S
CONTROL CENTRE
Primary Intake
RTURTU
RTU
Smart Irrigation System
Ø 4
00-
50
0
ø 200-250
Ø 1200-1000
Ist & IInd
Level
IIIrd Level
IVth Level
Secondary Intake
Main conduct
HYDROPASS
FLO
W M
ETER
S
CONTROL CENTRE
S642
Primary Intake
RTURTU
RTU
Smart Irrigation System
Delivery
30-05-2018
15
Ist and IInd Level – RTU «RTP» Apparatus
RTP
NETWORKS2/3 G, WLAN, VHF/UHF, ISMPROTOCOLSMODBUS RTU, MODBUS/TCP, IEC60870-5-104, …
ARCHITECTURE MASTER/SLAVEI/O > 4095 POINTSI/O DISTRIBUTED
WEB LOCAL SERVER DIAGNOSTICSPARAMETRICS
OPERATING PANEL AUTOMATIONS & ADJUSTMENTSCONTROL ACCESS TO TRASPONDERSDIAGNOSTICS OF BUFFER BATTERIES PROTECTION OF NETWORK POWER SUPPLY
RTPRTP
RTP
Ø 4
00-
50
0
ø 200-250
Ø 1200-1000
Main conduct
Secondary Intake
Ist & IInd
Level
IIIrd Level
IVth Level
HYDROPASS
FLO
W M
ETER
S
CONTROL CENTRE
S642
Primary Intake
Smart Irrigation System
Delivery
IIIrd Level – µRTU «S642» Apparatus IT IS:An equipment capable of remotemonitoring and control, based upon2.5G technology and supplied byphotovoltaic energy.
IT DOES:Bi-directional communication with theControl Centre, enabling precise datalogging for I/O channels.• Management of hydraulic valves
command, by means of directcontrol of the solenoid;
• DI acquisition, counting andsummarizations;
• AI acquisition.
S642
Ist & IInd
Level
IIIrd Level
RTPRTP
RTP
FLO
W M
ETER
S
Ø 4
00-
50
0
ø 200-250
Ø 1200-1000
Main conduct
IVth Level
Secondary Intake
HYDROPASS
CONTROL CENTRE
S642
Primary Intake
Smart Irrigation System
Delivery
30-05-2018
16
IVth Level – Automated Water Delivery Groups
STAND ALONE CARD SYSTEMS:• User Card, by contact or wireless, to open and
close water flow. Water accounting, control andplanning of single irrigations.
REMOTE READING CARD SYSTEMS:• GSM/GPRS: enables data acquisition periodically
and with fixed timing.
Hydropass
• RADIO: network of repeaters coveringthe interested area, ultra low power,bidirectional, free frequencies.
Real time alarms acquisitions.Continuous operating data acquisition.Remote re- programming of delivery groups.Command inputs transfer.
IVth Level – Remote reading equipment
Remote Reading Walk-by or Drive-by:Data acquisition passing by delivery groupswith tablet provided with receiver, max.distance (300/400 metres). Low energyconsuming System batteries lasting >10years.
Radio network of receivers covering the area, ultralow power, free frequencies:
Technology LoRa Wan communicatesat great distances (up to 15 Km)Real time alarms acquisitions.Continuous operating data acquisition.
Management Software:Enables integrated management of deliverygroups and of counters provided withremote data reading, acquiring data directlythrough Gateway LoRa WAN.
RTPRTP
RTP
Finaluser
Ø 4
00-
50
0
ø 200-250
Ø 1200-1000
Main conduct
Ist & IInd
Level
IIIrd Level
IVth Level
Secondary Intake
HYDROPASS
FLO
W M
ETER
S
CONTROL CENTER
S642
Primary Intake
Smart Irrigation System
The engine of a SIS is the Control Centre:• Guarantees robustness of the remote control system • Handles the DSS and runs information/data• Enables Governance resolutions in water resources.
Smart Irrigation System
Control Centre
CLOUD
30-05-2018
17
Control Centre
SCADA
ALARMS
HYDROPASS
INTERFACE MANAGEMENT
IRRIGATION ADVISE(Decision Support System)
INPUT DATA SIGRIAN
CLOUD SERVICES
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
Unità di ventazione termostatataPannello
175 186 197 208131 142 153 164 219 2210 2311 2412 Baseline Switch 2426-PWR Plus
3CBLSF26PWR
10/100 Status
Console (38400.8.1.N)
Link/Act
Power
Duplex
Link/Act
Link/Activity : Green = 100M, Yellow = 10, Flash = Activity,
Duplex : On = Full, Off = Half
Link/Activity : Green = 1000M, Yellow = 10M or 100M
Duplex : Green = Module Active, Yellow = Full
25 26
26
26
25
25
24
24
12
12
23
23
11
11
22
22
10
10
21
21
9
9
20
20
8
8
19
19
7
7
18
18
6
6
17
17
5
5
16
16
4
4
15
15
3
3
14
14
2
2
13
13
1
1
HP 1905-24-PoESwitchJD992A
Switch FastEthernet
Keybd
Mouse
VideoSerial A
1
2
3
4 KVM switch
UPS
Ripiani porta apparecchi (firewall, voice modem, NAS, ...)
Serial Devices Sever
175 186 197 208131 142 153 164 219 2210 2311 2412 Baseline Switch 2426-PWR Plus
3CBLSF26PWR
10/100 Status
Console (38400.8.1.N)
Link/Act
Power
Duplex
Link/Act
Link/Activity : Green = 100M, Yellow = 10, Flash = Activity,
Duplex : On = Full, Off = Half
Link/Activity : Green = 1000M, Yellow = 10M or 100M
Duplex : Green = Module Active, Yellow = Full
25 26
26
26
25
25
24
24
12
12
23
23
11
11
22
22
10
10
21
21
9
9
20
20
8
8
19
19
7
7
18
18
6
6
17
17
5
5
16
16
4
4
15
15
3
3
14
14
2
2
13
13
1
1
HP 1905-24-PoESwitchJD992A
Switch GigaEthernetCanalina passacavi
Canalina passacavi
PannelloUID
ProLiant
DL380
Gen9
UID
1 2 3 4 5 6 7 8
UID
ProLiant
DL380
Gen9
UID
1 2 3 4 5 6 7 8
UID
ProLiant
DL380
Gen9
UID
1 2 3 4 5 6 7 8
Server 1
Server 2
Server 3
Canalina passacavi
esc
HP R7000
Matrice commutazione videoCanalina passacavi
Intelligent redundant multi switch
Pannellatura
Pannellatura
Smart Irrigation System Centro di Controllo
Centro di Controllo
SCADA
GESTIONE ALLARMI
GESTIONALE HYDROPASS
INTERFACCIAMENTOGESTIONALI ESISTENTI
CONSIGLIO IRRIGUO (Decision Support System)
INVIO DATI SIGRIAN
SERVIZI CLOUD
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
Unità di ventazione termostatataPannello
175 186 197 208131 142 153 164 219 2210 2311 2412 Baseline Switch 2426-PWR Plus
3CBLSF26PWR
10/100 Status
Console (38400.8.1.N)
Link/Act
Power
Duplex
Link/Act
Link/Activity : Green = 100M, Yellow = 10, Flash = Activity,
Duplex : On = Full, Off = Half
Link/Activity : Green = 1000M, Yellow = 10M or 100M
Duplex : Green = Module Active, Yellow = Full
25 26
26
26
25
25
24
24
12
12
23
23
11
11
22
22
10
10
21
21
9
9
20
20
8
8
19
19
7
7
18
18
6
6
17
17
5
5
16
16
4
4
15
15
3
3
14
14
2
2
13
13
1
1
HP 1905-24-PoESwitchJD992A
Switch FastEthernet
Keybd
Mouse
VideoSerial A
1
2
3
4 KVM switch
UPS
Ripiani porta apparecchi (firewall, voice modem, NAS, ...)
Serial Devices Sever
175 186 197 208131 142 153 164 219 2210 2311 2412 Baseline Switch 2426-PWR Plus
3CBLSF26PWR
10/100 Status
Console (38400.8.1.N)
Link/Act
Power
Duplex
Link/Act
Link/Activity : Green = 100M, Yellow = 10, Flash = Activity,
Duplex : On = Full, Off = Half
Link/Activity : Green = 1000M, Yellow = 10M or 100M
Duplex : Green = Module Active, Yellow = Full
25 26
26
26
25
25
24
24
12
12
23
23
11
11
22
22
10
10
21
21
9
9
20
20
8
8
19
19
7
7
18
18
6
6
17
17
5
5
16
16
4
4
15
15
3
3
14
14
2
2
13
13
1
1
HP 1905-24-PoESwitchJD992A
Switch GigaEthernetCanalina passacavi
Canalina passacavi
PannelloUID
ProLiant
DL380
Gen9
UID
1 2 3 4 5 6 7 8
UID
ProLiant
DL380
Gen9
UID
1 2 3 4 5 6 7 8
UID
ProLiant
DL380
Gen9
UID
1 2 3 4 5 6 7 8
Server 1
Server 2
Server 3
Canalina passacavi
esc
HP R7000
Matrice commutazione videoCanalina passacavi
Intelligent redundant multi switch
Pannellatura
Pannellatura
The System has been conceived and developed in order to fulfill the need of updatedand instantaneous data from the irrigation system. The communication networkallows to have all the information regarding the user outline and his waterconsumption with the capability to communicate with the equipment in emergencyor failure situations.
30-05-2018
18
The S.I.S. System has been conceived and developed in order to fulfill the need ofupdated and real time data. The communication network allows to have access to allthe information regarding the user outline and his water consumption, along withthe capability to communicate with the equipment in emergency or failuresituations.
Smart Irrigation System
The S.I.S. System has been conceived and developed in order to fulfill the need ofupdated and real time data. The communication network allows to have access to allthe information regarding the user outline and his water consumption, along withthe capability to communicate with the equipment in emergency or failuresituations.
Smart Irrigation System
The S.I.S. System has been conceived and developed in order to fulfill the need ofupdated and real time data. The communication network allows to have access to allthe information regarding the user outline and his water consumption, along withthe capability to communicate with the equipment in emergency or failuresituations.
It can be coupled with the existing national databases, thus providing weather andsoil information in order to support the most sustainable Irrigation SchedulingSystems (IRRINET, IRRIFRAME etc). This leads to immediate and clear improvement ofthe irrigation operations with subsequent economic, management and environmentalbenefits.
Smart Irrigation System
Hydraulic Equipment
Remote Control Systems
Water SavingsAutomated
Delivery Groups
Decision Support System
Smart Irrigation System
30-05-2018
19
Model data-driven
Decision Making Possible Scenarios
Input Output
✓Crop✓Geolreferencing✓Irrigation System✓Meteo Forecast✓Irrigation Network✓…….
Support to decisions
It can help provide an exhaustive real-timepicture of the Irrigation System
DSS is a middleware; technologies and software internet oriented, web service in order to rely oncommunication amongst different devices.
What is a DSS?
At the heart of a Smart Irrigation System is the DSS= integration of information layers
• data
• previsions
• measures
• planning
• simulations
• What-if analysis
• Risk analysis
Crop
Parameters
Remote Control
System
Irrigation
Network
Territory
A DSS is a smart information system useful forstakeholders in taking important decisionswithout replacing them.
Smart Irrigation System
Feedback on
meteo data &
volumes
Optimization of Irrigation Advise based on info & data of water, soil and Meteo
Irrigation advise
Irrigatio
n
advi
se
Fie
ld D
ata
DSS Irrigation Advise - IRRIFRAME
Feedback on meteo data &
volumes
Field Operation
Effective Irrigation
DSS Irrigation Advise - IRRIFRAME
30-05-2018
20
TECHNICAL ASSISTANCE ON IRRIGATION SCHEDULING
IRRIFRAME is an Expert System forIrrigation Consortia developed with thesupport of UE, providing each farmerinformation on the following irrigationscheduling parameters:
•Crop water requirements
•Irrigation interval and frequency
IRRIFRAME improved irrigationand increased quantity andquality of agricultural production.
Meteo data
Soil
Water table
Crop data
Irrigation system
Timing of irrigationIntervals and frequency
Irrigation Volume Economic convenience
Consortium data
Crop water balance and irrigation scheduling according to intervals and water availability
After first time inputs are automatically assigned by the system
data
IRRIFRAME can be easily accessed by Internetor provided by SMS messages, sent directly tothe farmer. Consortia only need to:
• Provide information on irrigation intervalsand conditions.
• Provide geo referenced data on irrigated areas
Internet access to IRRIFRAMEserver is achievable by enteringANBI website or directly fromConsortia website. The farmer isprovided with a password, in orderto have the irrigation advice relatedto his farm.
30-05-2018
21
FARM GEOREFERENCING DATA
METEROLOGICAL DATA
WATER TABLE DATA
SOIL DATA
CROP PARAMETERS
IRRIGATION DISTRICTS
Localization of the farm on Google map and acquisition of local dataThe user will access the service by introducing geo referenced data of his farm onGoogle map. The system will automatically provide up-to-date information on theirrigated area, meteorological conditions, water table and soil characteristics.
Consortium Location
LEDRA-
TAGLIAMENTO
Udine
BRENTA Cittadella (PD)
VERONESE VERONA (VR)
EMILIA CENTRALE Reggio Emilia
ROMAGNA
OCCIDENTALE
Lugo (RA)
MAREMMA ETRUSCA Tarquinia (VT)
CAPITANATA Foggia
UGENTO E LI FOGGI Ugento (LE)
IONIO COSENTINO Trebisacce (CS)
IONIO CROTONESE Crotone
1
2
3
4
5
6
7
8
9
10
1
2
3
54
67
8
9
10
68 Consortia
55%
15–25 %
top related