RFID-based Logistics Information Service with Semantic Web DaeWon Park and HyukChul Kwon 2005.08.27.

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Presentation transcript:

RFID-based Logistics Information Service with Semantic Web DaeWon Park and HyukChul Kwon

Page 2 Pusan National University Contents RFID based Logistics Environment –Logistics Environment –RFID technologies –Logistics Environment applying RFID technology Logistics Information Service –RFID-based Logistics Information –Logistics Information Service Semantic Web in Logistics Information Service Summary Future Work

Page 3 Pusan National University Research Goal Main Goal –Effective management logistics information and retrieval –Globally connected logistics information service using Semantic Web Support data integration Support Interoperability Goal of current step –Managing different types of data in a system –Information retrieving in the system

Page 4 Pusan National University RFID-based Logistics Environment Logistics Environment –Physical flow of products –Information (about products, shipment, business transaction, etc) Manufacturer Products Packaging Shipment Retailer Shipment Shop

Page 5 Pusan National University RFID-based Logistics Environment Case : Baggage transit (airplane) –Attaching barcode to the baggage –And then ? SeoulParis Helsinki Send baggage (Code:KE3xxxx) Not Arrived (Where’s my baggage?/Lost?) Transfer (1 baggage transit) Request Information ?

Page 6 Pusan National University RFID-based Logistics Environment Management Logistics –Managing physical flow Manage and control movement of products Movement of products –From manufacturer to manufacturer distribution center –From manufacturer distribution center to retail distribution center –etc Logistics companies are looking for lowest-cost or fastest path/method –Managing logistics information Information of products, and movements of products –Ex: “Is the product valid for sale?” –Ex: “Where the product is now?” –Ex: “When the products arrive at the destination?”

Page 7 Pusan National University RFID-based Logistics Environment RFID technology –RFID (Radio Frequency Identification) Means of automatically identifying objects Alternative technologies –Barcodes –Magnetic strips –Being applied to many areas Ex: SCM(Supply Chain Management)

Page 8 Pusan National University RFID-based Logistics Environment EPC Network (typical research on using RFID technology) –Auto ID center Connecting information and physical flows Automatic, reliable transfer and update of information based on physical operations –EPCglobal Standards Development Implementation Support (Commercialization) –EPC (Electronic Product Code) Unique ID –Header : Company : Object Class : Serial Number Under processing of standardization

Page 9 Pusan National University RFID-based Logistics Environment Application Information Services Retail Distribution Center Shipment RFID Tag Product Specification Manufacture Product “Managing Logistics Information” Physical Flow Information Reader Retail Store

Page 10 Pusan National University Elements of RFID-based Logistics System RFID & RFID reader RFID Middleware –Application Level Event : Filtering Event Information Service –Manage EPC-related data & product data Discovery Service of Information Service –Handle Which information services have observation data of a product Naming Service –Provide location of Products’ Information Reader ALE Information Service Discovery Service ONS Application

Page 11 Pusan National University RFID-based Logistics Information Service Logistics Information Observation Data Attribute Data Containment DataTransaction Data Logistics Information

Page 12 Pusan National University RFID-based Logistics Information Service Logistics Information –Observation data RFID sensed data by RFID reader Time-stamped data { EPC, Sensed-Location, Sensed-Time } + { additional info } –Attribute data Information of product (instance level) –Information of each product Information of product type (class level) –Information of a product model

Page 13 Pusan National University RFID-based Logistics Information Service Logistics Information (Cont.) –Containment data Information of Packaging –Ex: 10 cellular phones are packed in a box Relation of container and contents –Container loads products without data conflict –Transaction data Business transaction –order, shipment, delivery, etc –Information Relation of business transaction and products

Page 14 Pusan National University RFID-based Logistics Information Service Logistics Information Service –Manage and retrieve logistics information

Page 15 Pusan National University Semantic Web in Information Service Define Ontology for Information Service –Ex: EPC, time, attribute, value,,, Representation of logistics information –Using Semantic Web For effective data sharing information with various applications –Data Integration –Consistency of data <rdf:RDF xmlns:rdf=" xmlns:epc=" xmlns:dc=" urn:epc:id:sgtin: :34:50 rd Jang-jeon, Busan Normal

Page 16 Pusan National University Semantic Web in Information Service Type Conversion –Time Local time  Standard time (G.M.T.) –Temperature Fahrenheit  Celsius –Unit Length, Weight, Volume, etc –Etc Time(G.M.T) Time(Korea) = G.M.T + 9hours Time(Finland) = G.M.T +3hours

Page 17 Pusan National University Semantic Web in Information Service Data Constraint Check –Type Checking –Validity of product in certain condition EPC CodeProductValid Temperature D2A.916E8B.8719BAE03AElectronics12 ~ D2A.916E8B.8719BAE03BDisc10 ~ D2A.916E8B.8719BAE03CClothes5 ~ D2A.916E8B.8719BAE03DSnack0 ~ 15 Temperature : 10~25 Temperature : 5 ~ ~ 15 Ok! Container

Page 18 Pusan National University Semantic Web in Information Service Data Constraint Check (Cont’) –Containment Data For instance –Container CA »Contains product P1 and product P2 –Product P1 »Food-stuff with moisture –Product P2 »Electronics »Cannot be loaded with something moisture => P1 and P2 cannot be in the same container

Page 19 Pusan National University Semantic Web in Information Service Containment Data Constraint Check

Page 20 Pusan National University Summary Applying Semantic Web to logistics information service –For interoperability with applications –For data integration –Consistency Developing Ontology for logistics information service –Representing logistics information using that ontology Ease to expand Data type checking and conversion –Constraint Checking Containment data, attribute data

Page 21 Pusan National University Future work Development Information Service System –Implementation of information service –Globally connected information service Inference of logistics information –Set relationship between logistics information –Developing inference engine

Page 22 Pusan National University Thank you! DaeWon Park