HARNESSING AI FOR ENHANCED MEDIA ANALYSIS A CASE STUDY ON CHATGPT AT DRONE EM...
EGNOS in Precision Agriculture: an affordable entry Technology for a wide Range of Applications
1. EGNOS in Precision Agriculture: an affordable entry Technology for a wide Range of Applications Capigi, Amsterdam, 05 April 2011 Reinhard Blasi, Market Development Officer, GSA
2.
3.
4.
5.
6. Galileo Implementation Plan Galileo System Testbed v1 Validation of critical algorithms Galileo System Testbed v2 2 initial test satellites In-Orbit Validation 4 IOV satellites plus ground segment Initial Operational Capability Early Services for OS, SAR, PRS 18 satellites 2003 2005 2011/12 2014/2015 Full Operational Capability All services, 30 satellites 2019/2020 In order for Galileo to be recognized by the downstream market as the second satellite navigation system of choice it is key to deliver early services as soon as 2014/2015.
7.
8.
9.
10. Why EGNOS in Agriculture? High Precision, Low Cost Link to Video of EGNOS in Agriculture
11.
12. EGNOS has a wide range of applications … EGNOS application domain c.1m Low-value crop cultivation (e.g. cereals) and low-accuracy operations (fertilising and reaping) c.2.5m Field measurement and boundary mapping and updating Legislation/ management c.2.5m Land parcel identification/ geo-traceability, post harvest pick-up and supervised tracking of livestock, manure, etc. Agro-logistic 2-5m Individual livestock positioning and virtual fencing Dairy c.2cm High-value crop cultivation (e.g. potatoes and vegetables) and/ or precision operations (sowing and transplanting) Arable Required accuracy level Application field Application category
13.
14.
15. GNSS technologies impact differently on each phase depending on the cultivation structure pag. Activity Parameter For each cultivation GNSS technology impact on cultivation with markers 2,36% 2,36% 2,49% GNSS technology impact on cultivation with no marker 2,36% 2,36% 3,55% 3,55% 2,36% Source: Experts’ interviews; Centre wallon de Recherches agronomiques EGNOS benefit for steering guidance Soil preparation First Treatments Seeding Treatment after planting Harvesting Primary tillage Secondary tillage Fertilizer application Seeding Plant protection products application and fertilizers Harvesting Labour Hour, Hours of usage of the machine Labour Hour, Hours of usage of the machine Labour Hour, Hours of machine usage Nitrogen, Phosphate, Potassium fertilizer Labour Hour, Hours of usage of the machine Labour Hour, Hours machine usage Herbicide, fertilizer and pesticides quantities Labour Hour, Hours of usage of the machine
16. NPV per technology and farm’s hectares – The case of durum wheat Example for Durum Wheat Net present value per technology and hectare Hectares € EGNOS DGPS RTK EGNOS 17 DGPS 35 RTK 97 NPV>0 (HA) Source: GSA CBA Example for steering guidance
17.
18. “ Harvesting” EGNOS potential Enhancing EGNOS adoption Measure Seed Fertilise Harvest Analyse the market Create awareness among manufacturers Identify EGNOS champions Exploit EGNOS value added
20. Strong effort on Key levers Maximise EGNOS penetration in Agriculture Market awareness Partnerships with Industry players Leverage Framework Program R&D effort to support adoption Test and exploit new service (EDAS) Key levers and concrete actions 1 3 2 4
GSTB V1 objectives GPS measurements collected world-wide by a network of stations and processed off-line to verify GALILEO Timing, Navigation and Integrity concepts Successful completion in December 2004 with the provision of validated prototype algorithms and models to the Ground Mission Segment IOV Phase CDE1 Contract GSTB V2 objectives Experimental GALILEO Satellite programme Precursor of the IOV Phase Securing GALILEO filings and validating on-board technology in the MEO radiation environment IOV Objectives Verification of all space, ground and user components, including their interfaces, prior to full system deployment Analysis of system performance with the view to refine the FOC system prior to full system deployment Verification of the adequacy of the siting requirements Verification of Navigation Processing Verification of integrity processing regarding the establishment of SISA and IF confidence levels, characterisation of feared events and TTA analysis UERE budget characterisation Deployment risk reduction Verification of operational procedures FOC