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UtilityAMI HAN Task Force. July 11, 2007. Agenda. Introductions Review of project timeline and milestones Review of recently approved guiding principles HAN Functional Characteristics and System Criteria (HFCSC) discussion Vote to approve HFCSC
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UtilityAMI HAN Task Force July 11, 2007
Agenda • Introductions • Review of project timeline and milestones • Review of recently approved guiding principles • HAN Functional Characteristics and System Criteria (HFCSC) discussion • Vote to approve HFCSC • Comments on use cases and normalization process • Logistics for July 31 Meeting • Adjourn
Introductions and TF Operating Rules • OpenHAN is a TF of the UtilityAMI WG and operates under the same governing rules • This is a utility driven activity • Members in good standing of the UCA International Users Group which represent a utility are eligible to vote • Utility members are permitted to put any issue on the table for discussion or vote • Any member may contribute / comment • A majority of utility members may vote to table any issue
Project Timeline • Today – discuss and vote on HFCSC • July 13 – all to submit new, updated use cases • July 16 – team lead by CA IOU’s begins normalization process • August 1 – Normalized use cases available for review • August 13 – Draft of “Platform Independent Requirements and Architecture” document • August 15 – Physical meeting in Jackson Michigan hosted by Consumers Energy – review “Platform Independent Requirements and Architecture” document • August 20 – Smart Metering West Coast – HAN Workshop • August 24 – final draft document(s) available for vote • August 31 – publish our document(s) and issue press release
Guiding Principles HAN Guiding Principles Value Proposition Functional Characteristics & Criteria Platform Independent Requirements Platform Requirements (Technology Specific)
HAN Guiding Principles • Supports a secure 2-way communication between the AMI Network and the HAN • Supports load control integration (e.g., distributed resource dispatch / control / relaying) • Provides direct access to usage and other meter data (e.g., kWHr, KW, Voltage, etc.) • Provides a platform for future customer owned products which leverage meter data and utility/grid information • Supports three types of communications: public price signaling, consumer specific signaling and control signaling • Supports communications to other HAN Devices with metering capability (e.g., gas and/or water meter communication, EV sub-metering, PV sub-metering, etc.) • AMI Network interface to HAN interface is based on open standards • Implementation is appropriate given the high value and relative low cost • Potential technology obsolescence is low due to multiple bridging options
HAN Functional Characteristics Value Proposition Guiding Principles Functional Characteristics & Criteria Platform Independent Requirements Platform Requirements (Technology Specific)
HAN Application Characteristics • Control - Applications that respond to control commands • Direct - Turns load On or Off • Cycling - Turns load On or Off at configurable time intervals • Limiting - Turns load On or Off based on configurable thresholds • Measurement & Monitoring - Applications that provide internal data & status • Distributed generation (DG) - Local energy input/output (kWh, kW, other energy values) • Sub-metering - Device specific, end-use energy consumption or production (e.g. Consumer PHEV) • Environmental State - Current local conditions (e.g., temperature, humidity, time, airflow, ambient light level, motion) • Device State - The current or historical state of the device (e.g., lights/fans/compressor/motor/heater are on/off) • Processing - Applications that consume, process and act on external and internal data. These applications accept data from external systems and HAN measurement & monitoring applications. In general, these applications that have a higher level of complexity and cost. • Energy Cost - Calculates current and overall energy cost • Energy Consumption - Calculates current and overall energy consumption • Energy Production - Calculates current and overall energy Production • Energy Optimization - Utilizes external and HAN data to determine desired response based on a consumer configurable profile • Energy Demand Reduction - Uses external and HAN data to reduce load based on a consumer configurable profile • Environmental Impact - Calculates environmental impact of current energy consumption (e.g. Power Generation Plant CO2 emissions related to consumer specific load) • Human Machine Interface (HMI) - Applications that provide local user input and/or output. These applications are based constrained and based on the data type • User Input - Provides consumers with a means to input data into an Application (e.g., Touch screen, Keypad) • User Output - Provides an Application with a means to output data to the consumer (e.g., In-Home Display, text message)
HAN Communications • Discovery - The identification of new nodes within the HAN • Announcement – both active and passive device notification methods • Response - Includes both endpoints (e.g., announcing entity and recipient entity) • Initial Identification - Device-type and address identification • Commissioning - The network process of adding or removing a node on the HAN with the expectation that the system is self-organizing (i.e., initial communication path configuration). This process is decoupled from utility registration. • Identification - Uniquely identifying the device • Authentication - Validation of the device (e.g., the network key) • Configuration - Establishing device parameters (e.g., network ID, initial path, bindings) • Control Autonomous functions enabled by the platform specific technology • Organization - Communication paths (e.g., route) • Optimization - Path selection • Prioritization - Communication based on importance (e.g., queuing, scheduling, traffic shaping) • Mitigation - Ability to adapt in response to interference or range constraints through detection and analysis of environmental conditions
HAN Security • Access Controls and Confidentiality – protection methods associated with both data-at-rest and data-in-transit based on data type • Public Controls (low robustness) - protection methods for publicly available information (e.g., energy price) • Private Controls (medium robustness) - protection methods for confidential or sensitive data (e.g., consumer usage) • Utility Controls (high robustness) - protection methods for utility accountable data (e.g., load control, sub-metering data) • Registration and Authentication – Verifying and validated HAN participation • Initialization – establishes the application/device as a validated node (i.e., logical join to the utility’s network) • Validation – validates the application’s data (i.e., request or response) • Correlation – correlating an account (e.g., consumer) with a device, application or program (e.g., DR programs, peak time rebate, etc.) • Authorization – rights granted to the applications • Revocation – removing an established node, correlation or authorization • Integrity – Preserves the HAN operating environment • Resistance – methods which prevent changes to the application or application’s data (e.g., tamper and compromise resistance) • Recovery – restores an application or the application’s data to a previous or desired state (e.g., reloading an application, resending corrupted communications) • Accountability – monitoring malicious activities • Audit – application log detected compromise attempts • Non-repudiation – applications and application operators are responsible for actions (e.g., can not deny receipt or response)
HAN Performance • Availability - The applications are consistently reachable • Reliability - The applications are designed and manufactured to be durable and resilient • Maintainability - The applications are designed to be easily diagnosed and managed • Scalability - The system supports a reasonable amount of growth in applications and devices • Upgradeability - The applications have a reasonable amount of remote upgradeability (e.g., patches, updates, enhancements) • Quality - The applications will perform as advertised
HAN Operations, Maintenance and Logistics • Manufacturing and Distribution - Vendor’s pre-installation activities • Pre-commissioning - Depot level configuration setting • Registration configuration - Any required utility specific configurations • Labeling - Utility compliance and standards labeling • Purchasing - Supports multiple distribution channels (e.g., retail, wholesale, utility) • Installation - physical placement of the device • Documentation - Installation materials and manuals • Support Systems - Installation support systems including web support, help line, other third party systems • Management and Diagnostics • Alarming and logging - Event driven consumer and utility notifications • Testing - System and device testing • Device reset - Resets the device to the installation state
Motion to Approve HFCSC • Motion • Discussion • How to document – convert slides to short word document – no added/changed content – can be done after vote • Publish / press release (along with guiding principles) • Vote
Next Steps • Publish CA IOU Vision statement (Guiding Principles, Functional Characteristics) • Develop OpenHAN comprehensive HAN use cases • Develop OpenHAN platform independent requirements • Develop UtilityAMI platform independent architectural views for AMI and HAN • Continue to share information with technology communities (i.e., vendors, alliances)
Next Meeting • Physical Meeting • Tuesday, July 31, 2007 • Hosted by PG&E