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Semantic Web Technologies for Orchard Irrigation Systems Jiao Tao, Rui Huang, Shangguan 2008/11/17 1
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Outline Motivation Use Case Knowledge Representation Implementation Conclusions 2
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Motivation Many orchards use traditional irrigation systems Measure soil water content manually Treat different fruit trees in the same way Treat different soil in the same way Irrigation technology is orchard specific Actually, irrigation is not just spraying water. It needs a lot of knowledge from different domain Botany: fruit, growth stage, root depth Agrology: soil texture, soil water content, soil allowable depletion Climatology: precipitation, evapotranspiration We need smart irrigation systems which know whether we should water the orchard. 3
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Motivation Semantic e-Science works here! Integrating data from multiple data sources Soil water content from sensor Evapotranspiration rate based on history record Precipitation rate from weather forecast services … Infer Fuji is apple and Pantao is peach, thus they have different evapotranspiration rate Semantic Mediawiki as a quick prototype development platform 4
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Use Case Provide an irrigation system which decides whether irrigation is necessary for a given field, if necessary how much water is needed, and the next day (possible) to water. 5
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Use Case Diagram 6
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Activity Diagram 7
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Knowledge Representation Knowledge sources: Irrigation: http://extension.usu.edu/htm/publications/by=category/category=186 Fruit: http://www.uga.edu/fruit/ http://www.bowmanorchards.com/ Soil moisture: http://en.wikipedia.org/wiki/Water_retention_curve Climatology: precipitation, evapotranspiration http://www.nrcc.cornell.edu/grass/moisture/mp_evapotrans.html http://squall.nrcc.cornell.edu/lawnWater/program/lawn_water_process http://www.nrcc.cornell.edu/grass/moisture/mp_moisture.html Sensor: http://en.wikipedia.org/wiki/Sensor http://www.soilmeasurement.com/tensiometer.html http://en.wikipedia.org/wiki/Tensiometer 8
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Knowledge Representation 9 Field Capacity: amount of water can be held in soil Permanent Wilting Point: the point at which the water in soil is not available for uptake by plant roots. Plants die at this point. Available Water: amount of water held in the soil between field capacity and permanent wilting point. Allowable Depletion: the point where plants begin to experience drought stress. Usually it is 50% of total available water.
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Knowledge Representation General Irrigation Knowledge Managing irrigation = managing money Balance: soil water content Input: precipitation, irrigation Expense: evapotranspiration The goal of a well-managed irrigation system is to maintain soil moisture between field capacity and allowable depletion. And, Water holding capability depends on soil texture, root depth Evapotranspiration depends on locations, seasons, crop, growth stage Usually sensor reads water potential, not water content 10
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Knowledge Representation Our irrigation model S: sensor reading, current water content R: rainfall in next week T: threshold (soil allowable depletion) U: upper bound of water holding capability Ev.: evapotranspiration rate per week of given crop ConditionWater? (Y/N)Water VolumeNext Day to Water (1)S < T S + R < UYU-S-R(U-T)/Ev. S + R > UY(N)0(U-T)/Ev. (2)S > T S + R < UNN/A(S+R-T)/Ev. S + R > UNN/A(U-T)/Ev. 11
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Knowledge Representation Ontologies: Orchard Irrigation 12
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Knowledge Representation Ontologies: Fruit 13
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Knowledge Representation Ontologies: Sensor 14
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Knowledge Representation Ontologies: Other 15
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SMW based Implementation Based on Tetherless Map extension 16
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Demo Workflow User logs into the system Select kinds of fruits Check whether irrigation is needed for a certain orchard field Currently only supports checking one field per time Be informed about irrigation volume and next irrigation day
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User Interface
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Ontology Implementation on SMW Classes correspond to Categories Orchard Category:Orchard OrchardField Category:OrchardField Apple Category:Apple GrowStage2CropCoefficient Category:GrowStage2CropCoefficient Instances correspond to Pages Fuji instance Page:Fuji OrchardField instance Page:FieldA… Properties correspond to Properties hasFruit Property:has Fruit
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Irrigation Model Implementation Simple Math Calculations Calculation procedures implemented within templates (functions/methods) Retrieve multiple parameter values using SMW inline queries (variable definitions) Do mathematical calculations with the help of SMW parser functions (programming language syntax)
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Sample Wiki Code {{#vardefine:coe|{{#ask: [[Category:GrowStage2CropCoefficient]] [[Has growth stage:: [[Category:GrowthStage]] [[Has field name::{{{field_name|}}}]] ]] [[Has fruit name:: [[Category:Fruit]] [[Has fruit type::Fuji]] ]] | ?Has crop coefficient= | mainlabel=- | limit=1 | link=none | format=list }} {{#vardefine:ETr|{{#ask: [[Category:LocationSeason2ETr]][[Has field name::{{{field_name|}}}]] [[Has growth season::{{CURRENTMONTHABBREV}}]] | ?Has ETr= | mainlabel=- | limit=1 | link=none | format=list }} {{#vardefine:ETc|{{#expr: {{#var:coe}} * {{#var:ETr}} }}}}
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Sample Wiki Code {{#vardefine:irrigate| {{#ifexpr:{{#var:WC}}<{{#var:ADUB}}|{{#ifexpr:{{#var:WC}}+{{#var:RF}}<{{#var:C apacity}} |Yes | Yes }}| {{#ifexpr:{{#var:WC}}+{{#var:RF}}<{{#var:Capacity}} |No |No }} }} }} {{#vardefine:volume| {{#ifexpr:{{#var:WC}}<{{#var:ADUB}}|{{#ifexpr:{{#var:WC}}+{{#var:RF}}<{{#var:C apacity}} |{{#var:Capacity}}-{{#var:WC}}-{{#var:RF}} | 0 }}| {{#ifexpr:{{#var:WC}}+{{#var:RF}}<{{#var:Capacity}} |N/A |N/A }} }} }} {{#vardefine:days| {{#ifexpr:{{#var:WC}}<{{#var:ADUB}}|{{#ifexpr:{{#var:WC}}+{{#var:RF}}<{{#var:C apacity}} |({{#var:Capacity}}-{{#var:ADUB}})/{{#var:ETc}} | ({{#var:Capacity}}-{{#var:ADUB}})/{{#var:ETc}} }}| {{#ifexpr:{{#var:WC}}+{{#var:RF}}<{{#var:Capacity}} |({{#var:WC}}+{{#var:RF}}-{{#var:ADUB}})/{{#var:ETc}} |({{#var:Capacity}}- {{#var:ADUB}})/{{#var:ETc}} }} }} }}
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Project Experiences Semantic Mediawiki (SMW) as a quick prototype platform SMW is able to support simple mathematics (limited, but can be extended via extensions) How to create ontology with large number of classes/instances in bulk on Wiki (import/export) How to integrate multiple data services from other portals (e.g., weather forecast, rainfall, etc) using Wiki How to forge sensor data (possibly customized parser function)
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