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META-Engineering META portals Handling Real Time applications Copyright © 2012 IT & Integration AS The Paradigm to Cloud Transformation with: Self Sevice.

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Presentation on theme: "META-Engineering META portals Handling Real Time applications Copyright © 2012 IT & Integration AS The Paradigm to Cloud Transformation with: Self Sevice."— Presentation transcript:

1 META-Engineering META portals Handling Real Time applications Copyright © 2012 IT & Integration AS The Paradigm to Cloud Transformation with: Self Sevice & Self Management

2 Home Application Areas – Application groups – Network Devices(Noder) © IT & Integration AS From Blood NANO-based Health Condition meters: Wastewater from WC Wastewater from a Sink Meal preparation & Environmental Control: Oven Other Equipment Fridge & Freezer Service Executer:Service Receiver: Interactiv eTV Entertainment & Social Activities: Gaming, Video Music, Radio IP camras Energy Environmental Control: Heater Wash & Dryer machine Heat pumpe & Air Condition Dishwasher maskin EL-meter Lighting system Ventilation EPR-eDeviceCX Appl. Groups: ( Functional Profiles) 0x General 1x Audio/Video 2x Lighting 3x Communication 4x HVAC 5x Utility 6x Security 7x Appliance 8x Convenience 9x Food 10x Health x = sub groups Sicurety & Environmental Control: IP Camras Door Access control Smoke Detectors Movement sensors Working Instructions & Reporting: Mobile as control unit and working tool Health Condition Monitoring: Boddy & Environmental sensors EPR-eDeviceCX-dictionary:

3 EPR-eDevice : WS Modeling building elements EL-meter 21  C HVAC Video Phone 01 Node Control 02 CX Control 03 Data Chan. Rx 04 Data Chan. Tx 05 Binary Control 06 Binary Sensor 07 Analog Control 08 Analog Sensor 09 Multi Position Control 0A Multi Position Sensor 0B Matrix Output 0C Multiplane Output 0D Ganged Analog Ctrl 0F Meter 10 Display 11 Medium Transport 13 Dialer 14 Keypad 15 List Memory 16 Data Memory 17 Motor 19 Synthesizer-Tuner 1A Tone Generator 1C Counter/Timer 1D Clock ( Functional Profiles) 0x Universal 1x Audio/Video 2x Lighting 3x Communication 4x HVAC 5x Utility 6x Security 7x Appliance 8x Convenience 9x Food/Meal Ax Medical/Health b Boolean data (On/Off) c Letters (ASCII text) n Numbers ( Integer ) d Binary data (Hex bytes) SETOFF SETON GETVALUE GETARRAY SETVALUE SETARRAY ADD INCREMENT SUBTRACT DECREMENT COMPARE COMPARE_I COPYVALUE SWAP EXIT ALIAS INHERIT DISINHERIT IF DO WHILE REPEAT BUILD Interoperability layers: (Application modeling+CAL) EPR-eDeviceCX Appl. Functional Context classes EPR-eDeviceOB Appl. Fuctional Objects Appl. Variables: ( IV) CAL methods: Control = System Output signal Sensor = System Input signal

4 EPR-eDeviceCX Dictionary : eDevice modelling CONTEXTS 21  C 0x General 00 Universal 01 Free 02 User Interface 04 Data Channels 05 Time 07-0D Free 0E Time Monitor 0F House mode CX: Functional Profiles 0x General Appl. Groups: (CX) 1x Audio/Video 10 Audio Amp 11 Medium Transport 12 Tuner 13 Video Display 14 Audio Equalizer 15 Camera 16 Free 17 Switch 18 A/V system 19 A/V system Control 1A-1F Free 2x Lighting 20 Light Sensor 21 Light 22 Lighting Scene 23 Light Sensor Status 24 LightingSceneRequest 25 LightingSceneStatus 26-2F Free 4x HVAC 40 Environmental Zone 41 Environmental Sensor 42 Environmental Status 43 Environmental Zone Control 44 Environmental Zone Equipment 45 Environmental System 46 Damper Control 47-4F Free 6x Security 60 Security Sensor 61 Security Zone 62 Security Partition 63 Security Partition Status 64 Security Alarm Status 65 Security Alarm 66 Security Partition Request 67 Security Sensor Status 68 Security Zone Status 69 Trouble 6A Trouble Status 6B-6F Free 3x Communications 30 Telecom 37 Intercom 38 -3F Free ( Home Office ) 5x Utility 50 Utility Meter 51 Electric Monitoring 52 Electric Status 53 Gas Monitoring 54 Gas Status 55 Water Monitoring 56 Water Status 57 Service Monitoring 58 Service Status 59 Free 5A Load Request 5B Load 5C Energy Management Request 5D Energy Management 47-4F Free 9x Food/Meal 90 91 92 93 94 95 7x Appliance 70 Washer 71 Water Heater 72 Dryer 73 Refrigerator/Freezer 74 Range 75 Oven 76 Coffee Maker 77-7F Free 8x Convinience 80 Window 81 Window Control 82 Door/Gate 83 Door/Gate Control 84 Pool/Spa 85 Pool/Spa Control 86 Bath 87 Fountain 88 Lift 89-8F Free Ax Medical/Health A0 A1 A2 A3 A4 A5 1x Audio/Video 2x Lighting 3x Communication 4x HVAC 5x Utility 6x Security 7x Appliance 8x Convenience 9x Food/Meal Ax Medical/Health Bx – Fx Free Contexts are grouped in Industry Application Areas Context(CX) = Application groups. CX=00 =General/Universal mandatory in all eDevices

5 EPR-eDeviceOB Dictionary: eDevice Modeling OBJECTS/Components (Symbols) 01 Node Control 03 Data Ch.Rx 02 Context Control 04 Data Ch.Tx 1 0 05 BinaryControl 06 Binary Sensor 1 0 07 Analog Control 08 Analog Sensor 0F Meter 09 MultiPosControl 0A MultiPosSwitch0A MultiPosSensor 0B MatrixControl 11 MediumTrans 10 Display XXXXX YYYYY 13 Dialer 14 Key Pad 19 Synth/Tuner 15 ListMemory 16 DataMemory 17 Motor 1D Clock 0A MultiPosSwitch1C Counter/Timer XY Object name Object Class Object Network category Message to ObjectMessage from Object 1A ToneGen.

6 EPR eDevice Abstarction layer: Functional Modeling Examples: 1.EPR-eDevice: Light Sensor 2.EPR-eDevice: Thermostat 3.EPR-eDevice: El-Meter

7 EPR-eDevice product model example: Light Sensor (default) 7. april 2010 EPR-eDevice product: Light Sensor hardware block diagram (01)00: Universal Global House keeping information: (02) 20: Light Sensor Define Light objects Address configuration button ON OFF SYSTEM: Reading Lux value: Manufacturer & Product-ID + I 30 % 08 Analog Sensor Reading Light Level Locked Open Door Occupancy: 06 Binary Sensor Occupancy 1 0 07 Analog Control Occupancy Sensitivity

8 EPR-eDevice product model example: Light Sensor (default) 7. april 2010 EPR-eDevice product: Light Sensor functional model (mirrored SW block diagram) (01)00: Universal Global House keeping information (01) (02) 01 Node Control DeviceID,address,CX-list (00,20) etc OB-list(01,02) etc 02 Context Control (02) 20: Light Sensor Light sensor context used to measure outside or inside light levels and occupancy (01) (02) ( 03) ( 04) (05) 02 Context Control OB-list(02,08,06,1C,07) etc 08 Analog Sensor Light Level 06 Binary Sensor Occupancy 1 0 0A MultiPosSwitch1C Counter/Timer Occupancy Hold Delay 07 Analog Control Occupancy Sensitivity

9 EPR-eDevice product model example: Thermostat (default) 7. april 2010 EPR-eDevice product: Thermostat hardware block diagram (01)00: Universal Global House keeping information: (03) 41: E nvironmental Sensor Measuring Temperature & Humidity Values 08 Analog Sensor Inside Temperature, ”C 08 Analog Sensor Inside Humidity, %RH (02) 40: E nvironmental Zone Define Environmental Sensor objects 0A MultiPosSwitch0A MultiPosSensor Zone Status 1 0 05 BinaryControl Fan Control (04) 42: E nvironmental Status Status picked from Environmental Sensor (05) 63: S ecurity P artision C ontrol Security Partision Status Vektor and battery Address configuration button ON OFF SYSTEM: ON Auto FAN: Wanted Temperature: + I 21 ºC Manufacturer & Product-ID

10 (01)00: Universal Global House keeping information (01) (02) EPR-eDevice product model example: Thermostat (default) 7. april 2010 EPR-eDevice product: Thermostat functional model (mirrored SW block diagram) (03) 41: E nvironmental Sensor Measuring Temperature & Humidity Values (01) OB-list(02,08,08) (02) (03) 02 Context Control 08 Analog Sensor Inside Temperature, ”C Demand,kW 08 Analog Sensor Inside Humidity, %RH (02) 40: E nvironmental Zone Define Environmental Sensor objects (01) (02) ( 03) ( 04) (05) (06) (07) (08) (09) (0A) 02 Context Control OB-list(02,14,09, 0A,05,07,07,07,09,09) etc 09 MultiPosControl Zone Request 0A MultiPosSwitch0A MultiPosSensor Zone Mode 1 0 05 BinaryControl Fan Control (04) 42: E nvironmental Status Status picked from Environmental Sensor (01) OB-list(02,07,07) (02) (03) 02 Context Control 07 Analog Control Current Zone Temp,”C 07 Analog Control Current Zone Hum,%RH (05) 63: S ecurity P artision Status Security Partision Status Vektor and battery (01) OB-list(02,15,09) (02) (03) 02 Context Control 15 ListMemory Partision Status Vector from CX:62 DeviceID,address,CX-list (00,40,41,42,63) etc OB-list(01,02) etc 14 Key Pad Zone Status 02 Context Control 07 Analog Control Fan Speed 09 MultiPosControl Zone Control 09 MultiPosControl Zone State 01 Node Control 07 Analog Control Heat Setting ”C 07 Analog Control Cool Setting ”C 09 MultiPosControl Battery Status

11 EPR-eDevice product model example: El-Meter (default) 7. april 2010 EPR-eDevice product: El-Meter hardware block diagram (02) 50: Utility Meter Define Utility Meter objects 1D Clock Current Date and Time (03) 51: Electric Monitor Monitoring the energy consumptions 08 Analog Sensor Electric Power Demand,kW 08 Analog Sensor El. Commulative Demand,kWh 08 Analog Sensor Total El. Current,Amp 08 Analog Sensor El. Voltage,Volt (04) 52: Electric Status Picked up from Electric Monitor CX=51 (01)00: Universal Global House keeping information: Address configuration button ON OFF SYSTEM: Manufacturer & Product-ID El. Voltage Phase 1,2,3 El. Current Phase 1,2,3

12 EPR-eDevice product model example: El-Meter (default) 7. april 2010 EPR-eDevice product: El-Meter functional model (mirrored) (01)00: Universal Global House keeping information (01) (02) 01 Node Control DeviceID,address,CX-list (00,50,51,52) etc OB-list(01,02) etc 02 Context Control (02) 50: Utility Metering Define Utility Meter objects (01) (02) ( 03) ( 04) (05) 02 Context Control OB-list(02,16,16,16,1D) etc 16 DataMemory Meter Tables 16 DataMemory Interval Data 16 DataMemory Meter Memory 1D Clock Current Date and Time (03) 51: ElectricMonitoring Monitoring the energy consumptions (01) OB-list(02,08,07,08,07,08,08,08,08,08,08,08,08) (02) (03) (04) (05) (06) (07),(08),(09) El. Current Phase 1,2,3 (0A) (0B),(0C),0D) El. Voltage Phase 1,2,3 02 Context Control 08 Analog Sensor Electric Power Demand,kW 07 Analog Control El. Internal Demand,kWh 08 Analog Sensor El. Commulative Demand,kWh 07 Analog Control El. Peak Demand,kW 08 Analog Sensor Total El. Current,Amp 08 Analog Sensor El. Voltage,Volt (04) 52: Electric Status Picked up from Electric Monitor CX=51 (01) OB-list(02,07,07,07,07,07,07,07,07,07,07,07,07) (02) (03) (04) (05) (06) (07),(08),(09) El. Current Phase 1,2,3 (0A) (0B),(0C),0D) El. Voltage Phase 1,2,3 02 Context Control 07 Analog Control El. Internal Demand,kWh 07 Analog Control El. Peak Demand,kW 07 Analog Control El. Power Demand,kW 07 Analog Control El. Cummulative Demand,kWh 07 Analog Control Total El. Current, Amp 07 Analog Control El. Voltage, Volt

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