WP3 Local Control and Automation Hub, Peter Rosengren, Peeter Kool, Andreas Persson, CNet

Objectives Specify middleware architecture Develop WSN interfaces for data extraction from sensors. Define energy ontology Define external protocols for exporting data from local gateway/hub Develop device managers for use in pilot Develop prototype for semantic middleware Develop occupancy flow matching algorithms

Tasks T3.1 Inertia Semantic Middleware Specification T3.2 DER Device Managers T3.3 Inertia Ontology, Inference Rules & Semantic Devices T3.4 Multi-Sensoral Activity Flow Detection&Modeling in controlled environments T3.5 Ambient and personalised UI&User profiling mechanism

T3.1 Inertia Semantic Middleware Specification M3-M12 Partners: CNet (4), ENG (2), TUK (4), PPC (2) Describe architecture Build on LinkSmart technology Input from T1.4 Architecture Design and T2.1 Common Information Model Service-Oriented Architecture

T3.2 DER Device Managers M6-M18 Partners: CNet (6), ENG (4), Technalis(4), Indesit (4) Develop device managers (proxies) for sensors/devices to be used in pilot

T3.3 Inertia Ontology Inference Rules&Semantic Devices M6-M24 Partners: TUK(12), CNET (2), ENG (2), Technalia(2) Extend existing LinkSmart ontologies with energy related features Reasoning over large amounts of collected energy data to detect usage patterns

Partners: CERTH-ITI(10), ALMENDE(2) T3.4 Multi-Sensoral Activity Flow Detection&Modeling in controlled environments M6-M24 Partners: CERTH-ITI(10), ALMENDE(2) Optimise sensor types and placement of sensors for building type Develop novel algorithms for real-time detection and activity tracking of humans. Handle privacy and other legal/ethical issues

T3.5 Ambient and Personalised UI&User Profiling Mechanism M6-M24 Partners: HYPERTECH (10), CERTH-ITI(2), ENG (4), CNET (2), INDESIT (6), ALMENDE(2), ENELSI (2) Provide ways/mechanisms for building users to interact. Traditional controls (switchs, panels) Smart phones, public screens for visualisation of energy consumption End-users Building Managers

Deliverables D3.1 Semantic Middleware Architecture and Inertia Ontology Specification, M12, CNet D3.2 Semantic Devices& Device Managers Specification and Ontology update, M18, TUK D3.3 Ambient User Interfaces, User Behavioural Profiling and Activity Flow Framework, M24, Hypertech

T3.1 Inertia Semantic Middleware Specification, Peter Rosengren, CNet

T3.1 Inertia Semantic Middleware Specification M3-M12 Partners: CNet (4), ENG (2), TUK (4), PPC (2) Describe architecture Build on LinkSmart technology Input from T1.4 Architecture Design and T2.1 Common Information Model Service-Oriented Architecture

Middleware architecture

Subtasks Assess current LinkSmart baseline Architecture workshops M4, M6 and M9 Analysing requirements from T1.2 and T1.3 Harmonising with overall architecture from T1.4 and common information model from T2.1 Define/reuse interfaces for selected sensors/devices Defining external interfaces for exporting data.

Subtasks Definition of context awareness functionality and sensor types to support it Extend LinkSmart with energy profiles Definition of interfaces with ontology Produce design document

Next steps Assess ongoing LinkSmart developments and what can be used in Inertia, nov Architecture workshop 1, dec-jan. Gather input from pilot study, feb 2013 Intermediate specification, april 2013

T3.1 Subtasks LinkSmart Baseline assessment What is available today compared with DOW? Much more advanced event processing architecture Storage and logging of data Specify energy profile extensions Operational characteristics Dependency on environmental conditions

T3.2 DER Device Managers M6-M18 Partners: CNet (6), ENG (4), Technalis(4), Indesit (4) Develop device managers (proxies) for sensors/devices to be used in pilot

T3.2 DER Device Managers M6-M18 Partners: CNet (6), ENG (4), Technalis(4), Indesit (4) Develop device managers (proxies) for sensors/devices to be used in pilot Extend the LinkSmart DDK with new types of sensors

IoTDevice

T3.2 DER Device Managers Existing Implementations/Types Needed Smart plugs Temperature Humidity Needed C02 Camera …… Tryck, 35 kr Avstånd, 90 kr Temp & fukt, 40kr Rörelse, 60 kr Fukt, 35 kr Accelerometer, 100 kr IR Temp, 500 kr

T3.2 DER Device Managers For existing device types For new types Might require development of Device Service Manager For new types Develop the device services Development of Device Service Manager

T3.2 DER Device Managers Creating device services Quick and Simple using the LinkSmart DDK Creating discovery manager and device service manager Depends on the underlying technology, its a driver.

T3.2 DER Device Managers Risks T1.3, Selection of devices. Streaming interface need to be added for the camera.

T3.3 Inertia Ontology Inference Rules&Semantic Devices M6-M24 Partners: TUK(12), CNET (2), ENG (2), Technalia(2) Extend existing LinkSmart ontologies with energy related features Reasoning over large amounts of collected energy data to detect usage patterns

Partners: CERTH-ITI(10), ALMENDE(2) T3.4 Multi-Sensoral Activity Flow Detection&Modeling in controlled environments M6-M24 Partners: CERTH-ITI(10), ALMENDE(2) Optimise sensor types and placement of sensors for building type Develop novel algorithms for real-time detection and activity tracking of humans. Handle privacy and other legal/ethical issues

T3.5 Ambient and Personalised UI&User Profiling Mechanism M6-M24 Partners: HYPERTECH (10), CERTH-ITI(2), ENG (4), CNET (2), INDESIT (6), ALMENDE(2), ENELSI (2) Provide ways/mechanisms for building users to interact. Traditional controls (switchs, panels) Smart phones, public screens for visualisation of energy consumption End-users Building Managers

Deliverables D3.1 Semantic Middleware Architecture and Inertia Ontology Specification, M12, CNet D3.2 Semantic Devices& Device Managers Specification and Ontology update, M18, TUK D3.3 Ambient User Interfaces, User Behavioural Profiling and Activity Flow Framework, M24, Hypertech