Bavairia - myEOrganics project
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Transcript of Bavairia - myEOrganics project
Overview large-scale demonstratorProgramme12.30 Welcome and lunch All13.30 Stakeholder workshop
Welcome• Welcome• Short introduction of all participants
All
13.50
Presentation of myEOrganics, Juergen VogelMobile application demonstration
bavAIRia PC Agrar – Vista
14.30
Bio agriculture in Wallonia : • What about the organic agriculture in Wallonia ? Context ? Policy ? • What about the use of a mobile application or satellite application for the agriculture ?
BiowallonieCRA-W
15.30 Break 16.00
Space and mobile applications in (organic) farming - Input for discussions • IAP COPERNICUS project• ESA App in Barcelone• CSL input to space-based and field-based sensors and processing tools for organic farming
certification • Other to confirm
Spacebel SpacebelCSL
17.00 Conclusion and Open DiscussionB2B meetings
18.30 End of official programme
02 July 2015 Jürgen Vogel, bavAIRia
This work is supported within the European Mobile and Mobility Industries Alliance. This initiative is partly financed by the Competitiveness and Innovation Programme (CIP) of the European Union supporting small & medium-sized enterprises.
myEOrganics
www.mobilise-europe.eu
EMMIA 2 – Strand 2Large-scale demonstrators in support of Copernicus and GNSS based services
European Mobile & Mobility Industries Alliance (EMMIA)
Jürgen VogelCo-ordinator Int. Programmes
Cluster Management Aerospace bavAIRia e.V.
Stakeholder workshop2 July 2015 - Liège
Partner:
02 July 2015 Jürgen Vogel, bavAIRia
Key Topics addressed
Key objectives myEOrganics
• Demonstrate potential of mobile technologies and EO data for the organic food sector
• Explore scalability to other Regions and other services
• Provide a stimulus and support to related emerging industries
• Address the challenges of food safety and sustainable agriculture. Jürgen Vogel, bavAIRia
• Develop a demonstrator service to support organic certification
• Display indicators based on EO data to differentiate between conventional and organic crop
• Provide further means of geo references, notes, etc.
Busin. development objectives Technical objectives
Organic certification - State of art
• Mandated by national authorities and EU• Customer is the organic farmer• Certification service includes:
• On-site audits• Check of documents• Check of stream of goods• Etc.
• Result is a organic certificate Labour intensive
Jürgen Vogel, bavAIRia02 July 2015
A service from space to earth
Copernicus data centre
myEOrganics View
Data processing (Certification Indicators)
In-situ Agricultural Information System(Data Base)
GNSS Signal02 July 2015 Jürgen Vogel, bavAIRia
Classification of Indicators
User specific filters
Project Frame
EMMIA Phase 2 – large scale demonstrator
Project Duration: 01. 06. 2013 – 31. 11. 2015, 30 months
2013 2014 2015
Definition Phase
Implementation Phase
Demonstration P.
Jürgen Vogel, bavAIRia02 July 2015
8
Atmospheric correction
Derive crop parameters
Optical satellite image
Optical satellite image
Select farm
EO data processing – from image to service
9
RUNOFF
Select farmSelect farm
Optical satellite image
Atmospheric correction
Derive crop parameters
EO data processing – from image to service
10
Atmospheric correction
Atmospheric correction
Optical satellite image
Select farm
Derive crop parameters
EO data processing – from image to service
11
Plant Parameter Retrieval
Derive crop parameters
Optical satellite image
Select farm
Atmospheric correction
EO data processing – from image to service
Organic field - indicators
• Identify farms & fields
• Green -> red scale to identify
organic vs.
potentially non- organic field
• Enter geo-referenced notes
• Interface to certification
software solutions
02. July 2015 Jürgen Vogel, bavAIRia
Application to support auditor on-field
13
RapidEye acquisition from May 20, 2014
RedEdge false-colour composite: Vital vegetation in orange to red, soil in light blue
myEOrganics – EO-based organic indicator - examples
1)Field boundary compliance
14
Leaf area (LAI) [m²/m²] on May 20, 2014
myEOrganics – EO-based organic indicator examples
1)Field boundary compliance
15
Boundary issue detected!
Check field!
Feedback from demo user:
Southern parcel was left fallow and used as humus storage
Compliance confirmed, issue resolved
myEOrganics – EO-based organic indicator examples
1)Field boundary compliance
16
RapidEye acquisition from May 20, 2014RedEdge false-colour composite: Vital vegetation in orange to red, soil in light blue
myEOrganics – EO-based organic indicator examples
2)Crop type com- pliance
17
Leaf area (LAI) [m²/m²] on May 20, 2014
myEOrganics – EO-based organic indicator examples
2)Crop type com- pliance
18
Atypical temporal development of e.g. LAI allows for an identification as potential outlier fields
myEOrganics – EO-based organic indicator examples
2)Crop type compliance
19
Croptype issue detected!
Check field!
Feedback from demo user: Triticale was harvested earlier than entire crop silage & followed by maize Compliance confirmed, issue resolved.
myEOrganics – EO-based organic indicator 2)Crop type compliance
Landsat 8 OLI acquisition, March 29, ‘14
SWIR false-color composite: Vital vegeta-tion in green, soil in purple to magenta
myEOrganics – EO-based organic indicator examples
3)Organic farming standards compliance
20
"Red" fields have a significantly higher biomass status
myEOrganics – EO-based organic indicator3) Organic farming standards compliance
21
Biomass indicator timeline for winterwheat and triticale
Landsat 8 OLI acquisition, June 10, ‘14
SWIR false-color composite: Vital vegeta-tion in green, soil in purple to magenta
22
myEOrganics – EO-based organic indicator examples
3)Organic farming standards compliance
Organic treatment issue
detected!
Check field!
Feedback from demo user:
Sludge from biogas production was applied on triticale fields for fertilization
Compliance confirmed,
Issue resolved
23
myEOrganics – EO-based organic indicator examples
3)Organic farming standards compliance
Improve efficency of certification &add a value for customer
• Support auditors• Indication on field with potential
problems• Geo-localisation of fields and
auditor
• Remote access of service product• Allows for efficient preparation of
auditors• Reduce visiting times of auditors
• Scalable service
• In future: farmer/customer will benefit from this type of services directly
->Reduce cost of certification
Jürgen Vogel, bavAIRia
Contact
Dr. Jürgen Vogel
Co-ordinator International ProgrammesbavAIRia e.V.Sonderflughafen OberpfaffenhofenFriedrichshafener Straße 182205 GilchingGermany
+49-8105-272927- 45 +49-8105-272927- 15email: [email protected]