ilwoo@etri.re.kr 1

Considering ISO/IEC 15067-3 &

15067-3-x (Architecture of Smart Energy Home for HES)

2012. 9.

Wan ki ParkETRI, Korea

Ilwoo Lee, Kwang-roh Park (ETRI, Korea)

ISO/IEC JTC1 SC25/WG1 N1574

I

II

III

IV

Definition of Smart energy home

regarding Scope

Layered architecture for SEH

Functional architecture for SEH

V Conclusion

Definition of Smart Energy Home (1)

Smart Energy Home (SEH)

3

A logical domain model supporting all new services regarding home environment with smart grid infrastructure. The SEH contains

– Energy consuming devices (appliance or smart appliances)

– Energy Storage devices

– Local Energy Generation (Renewable)

– Electric vehicle

– Bidirectional Power system (Grid to Home, Home to Grid, Vehicle to Grid, etc)

– Metering, sensing, control, management, computing, etc.

To define SEH Model in detail , I think that it is required to be use

– Layered architecture Model

– Functional architecture (example) for services

It is helpful to understand and describe SEH & services.

ISO/IEC JTC1/SC25/WG1 Geneva meeting

wkpark@etri.re.kr

Outer Smart Grid

Definition of Smart Energy Home (2)

Smart Energy Home - Physical

4

Inter Home/Building Smart Grid

ISO/IEC JTC1/SC25/WG1 Geneva meeting

wkpark@etri.re.kr

Definition of Smart Energy Home (3)HES energy management model (15067-3)

5

It shows a system architecture and interrelationship among the elements.

I’m wondering that it is enough to define smart energy home and relevant services.

ISO/IEC JTC1/SC25/WG1 Geneva meeting

wkpark@etri.re.kr

regarding Scope

15067-3-x (N1559)

focuses on describing SEH using

- layered architecture to understand physical configuration of SEH

- functional architecture to describe and define smart energy services using smart grid technologies including metering, control, networking and power grid functions.

Purpose : to help us

- to understand smart energy home (logical domain), functionally

- to understand and describe smart energy service, how does it work functionally using function groups

6

ISO/IEC 15067-3

focuses on products and services that can manage energy consumption and generation of devices dynamically in response to electricity supply and prices.

specifies an energy management model for programs that manage the consumer demand for electricity using a method.

Regarding services except DR, it describes what the services are.

ISO/IEC JTC1/SC25/WG1 Geneva meeting

wkpark@etri.re.kr

7

Layered architecture for Smart Energy Home

ISO/IEC JTC1/SC25/WG1 Geneva meeting

wkpark@etri.re.kr

8

In-Home Power Grid

Func-tions

Service & Application Func-tions

Metering Func-tions

Energy Control Functions

Networking Functions

Man

ag

em

en

t Fu

nctio

n

Secu

rity Fu

nc-

tion

Sub-metering,Monitoring(sensor),Status information

Appliance On/OffDevice Control

Charge/discharge Con-trol, State Control

QoS, Reliability, Home Nwtworking

(802.3, WiFi, RS485, PLC, 802.15.4, 802.11 etc.)

Power Line,DC Distri-

bution,Local Power Generation

(Wind turbin, PV, Storage,

Electric Ve-hicle)

Energy Information Management(Syntax, Seman-tics)

Billing, Demand Response, Electric related Ser-vice,

Home Energy Management, Energy Trading, En-ergy Sharing, Home Automation interworking

Functional architecture for Smart Energy Home

ISO/IEC JTC1/SC25/WG1 Geneva meeting

wkpark@etri.re.kr

Conclusion

Layered architecture and functional architecture are base architecture.

In my contribution(15067-3-x),

– specify two architecture models(layered, functional) in detail

– will describes how do the typical smart energy services work using two base architecture models in annex part.

9ISO/IEC JTC1/SC25/WG1 Geneva meeting

wkpark@etri.re.kr