METAEngineering META portals Handling Real Time applications The

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

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

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

EPR-e. Device. CX Dictionary : e. Device modelling CONTEXTS Contexts are grouped in Industry Application Areas Context(CX) = Application groups. CX=00 =General/Universal mandatory in all e. Devices Appl. Groups: (CX) CX: Functional Profiles 0 x General 1 x Audio/Video 2 x Lighting 3 x Communication 4 x HVAC 5 x Utility 6 x Security 7 x Appliance 8 x Convenience 9 x Food/Meal Ax Medical/Health Bx – Fx Free 0 x General 3 x Communications 6 x Security 9 x Food/Meal 00 Universal 01 Free 02 User Interface 04 Data Channels 05 Time 07 -0 D Free 0 E Time Monitor 0 F House mode 30 Telecom 37 Intercom 38 -3 F Free ( Home Office ) 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 6 A Trouble Status 6 B-6 F Free 90 91 92 93 94 95 4 x HVAC 40 Environmental Zone 41 Environmental Sensor 42 Environmental Status 43 Environmental Zone Control 1 x Audio/Video 44 Environmental Zone Equipment 45 Environmental System 10 Audio Amp 46 Damper Control 11 Medium Transport 21 C 47 -4 F Free 12 Tuner 13 Video Display 5 x Utility 14 Audio Equalizer 15 Camera 50 Utility Meter 16 Free 51 Electric Monitoring 17 Switch 52 Electric Status 18 A/V system 53 Gas Monitoring 19 A/V system Control 54 Gas Status 1 A-1 F Free 55 Water Monitoring 56 Water Status 2 x Lighting 57 Service Monitoring 20 Light Sensor 58 Service Status 21 Light 59 Free 22 Lighting Scene 5 A Load Request 23 Light Sensor Status 5 B Load 24 Lighting. Scene. Request 5 C Energy Management Request 25 Lighting. Scene. Status 5 D Energy Management 26 -2 F Free 47 -4 F Free 7 x Appliance 70 Washer 71 Water Heater 72 Dryer 73 Refrigerator/Freezer 74 Range 75 Oven 76 Coffee Maker 77 -7 F Free 8 x 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 -8 F Free Ax Medical/Health A 0 A 1 A 2 A 3 A 4 A 5

EPR-e. Device. OB Dictionary: e. Device Modeling OBJECTS/Components (Symbols) 01 Node Control 02 Context Control 11 Medium. Trans 03 Data Ch. Rx 13 Dialer 04 Data Ch. Tx 1 0 10 Display 05 Binary. Control 06 Binary Sensor 07 Analog Control XXXXX YYYYY Object Class Object Network category 14 Key Pad 15 List. Memory XY Object name 16 Data. Memory 17 Motor Message to Object 08 Analog Sensor 09 Multi. Pos. Control 0 A Multi. Pos. Switch Multi. Pos. Sensor 0 B Matrix. Control 0 F Meter 19 Synth/Tuner 1 A Tone. Gen. 0 A 1 C Counter/Timer Multi. Pos. Switch 1 D Clock Message from Object

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

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

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

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

EPR-e. Device product model example: Thermostat (default) EPR-e. Device product: Thermostat functional model(mirrored (01)00: Universal Global House keeping information (01) (03)41: Environmental Sensor (05)63: Security Partision Status (01) Measuring Temperature & Humidity Values Security Partision Status Vektor and battery 01 Node Control Device. ID, address, CX-list (00, 41, 42, 63) etc 02 Context Control (02) Define Environmental Sensor objects (02) ( 03) ( 04) (05) (06) (07) (08) (09) 7. april 2010 (0 A) 02 Context Control OB-list(02, 14, 09, 0 A, 05, 07, 07, 09) etc (02) 08 Analog Sensor (03) 08 Analog Sensor 14 Key Pad Zone Status 09 Multi. Pos. Control Zone Request 05 Binary. Control Fan Control 07 Analog Control Fan Speed Status picked from Environmental Sensor (01) (02) 07 Analog Control Cool Setting ”C (03) 09 Multi. Pos. Control Zone State (02) 02 Context Control OB-list(02, 15, 09) 15 List. Memory Partision Status Vector from CX: 62 (03) 09 Multi. Pos. Control Battery Status (04)42: Environmental Status 07 Analog Control Heat Setting ”C 09 Multi. Pos. Control Zone Control Inside Temperature, ”C Demand, k. W Inside Humidity , %RH 0 A Multi. Pos. Switch Multi. Pos. Sensor Zone Mode 1 0 02 Context Control OB-list(02, 08) OB-list(01, 02) etc (02)40: Environmental Zone (01) SW block diagram) 02 Context Control OB-list(02, 07) 07 Analog Control Current Zone Temp, ”C 07 Analog Control Current Zone Hum, %RH

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

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