This scatter-shot installation does not facilitate the optimal use of smart meter technology. With full blown AMI,  customers can save energy and money by making informed decisions by tracking their appliances’ energy use (when coupled with a HAN) and adjusting their overall energy use based on price signals provided by the utility. The utility can save operating costs by not having to employ meter readers. They can optimize energy distribution by using dynamic line rating technology, and also diagnose and fix line faults automatically.

As great as this sounds, there are numerous hurdles to be overcome in AMI adoption and utilization, and these hurdles weigh heavily on regulators. Are advanced meters cost effective, and on what basis? Who will pay for the new meters? Should everyone have a smart meter or only those who benefit the most? Should they be opt-in or opt-out, considering that some people have privacy concerns, and others assert that smart meters threaten their health? How do utilities get customers to utilize the technology? Who will have access to the data the meters produce - which is key to privacy concerns, but also to development of new business offerings that could benefit consumers?

Public Utility Commissions (PUCs) are now beginning to struggle with these questions. In Illinois, the Citizens Utility Board (CUB) and the Environmental Defense Fund (EDF) are asking the Illinois Commerce Commission to adopt an open data access framework, in which customers would be the principal owners of their energy data while the utilities would be the guardians of the data. This data access question is tricky, but supporters of open access point to the enormous potential for third party product offerings if even bulk, anonymized data were made available to the broader market.

In Massachusetts, the Department of Public Utilities (DPU), as part of its grid modernization proceeding, coined a new term, Advanced Metering Functionality (AMF), and ordered each electric distribution company to submit a 10-year grid modernization plan. The plans incorporate a short-term (five-year) roadmap that outlines planned capital investments, including the rollout of AMF across the state. By calling for AMF instead of AMI, the DPU is telling utilities that they want the capabilities that AMI offers but without prescribing any particular set of enabling technologies. In layman's terms, if a third party can develop a tool that can relay near real-time usage data by some other means other than smart meters, why stop them?

The New York Public Service Commission outlined its framework for AMI deployment in a February 2015 order under its Reforming the Energy Vision (REV) proceeding. The PSC for the most part aligned with the joint filings by AEE Institute, New England Clean Energy Council and  Alliance for Clean Energy New York. The PSC adopted the Massachusetts terminology and said that AMF, as opposed to AMI, was preferred because it allows for a variety of enabling technologies and may be more readily supplied by competitive providers, avoiding the need for a ratepayer-funded rollout. They also touched on implementation issues, saying AMI/AMF will be considered on a case by case basis and that cost allocation will ultimately depend on who benefits - ratepayers and/or market participants. The PSC also noted privacy and health concerns by adopting an alternative opt-out program for customers. Finally, the PSC aligned with our position that utilities should work with third parties or contracted agents to use customer data in order to identify and make customers aware of cost effective saving opportunities. Implementation will be laid out in more detail in PSC staff guidance for the development of distributed system implementation plans on September 8.

The bigger question facing PUCs is justifying the upfront cost of AMI, when full benefits may only be realized after programs are implemented that take full advantage of smart meter functionality. (This is a particular issue in jurisdictions that have already replaced old meters with automated reading meters, as eliminating manual meter reading is a major source of savings from meter replacement.) Still, based on a conservative analysis by the Edison Foundation, a utility with a service territory of 1 million households over a 20 year period could achieve operational savings of $77 million to $208 million, with consumer-driven savings of $100 million to $150 million and a net benefit of $21 million to $64 million, with far less than full customer utilization. Still, where smart meters have been installed, some people complain that they are paying a surcharge for new meters without seeing reductions in their bills. Unless utilities adopt (with regulatory approval) time varying rates that give customers price signals to reduce their usage and educate customers on the benefits of tracking their electricity usage, it is hard to show savings for customers.

To prove its value to regulators, and then to customers, AMI has to be paired with programs and rate structures that show benefits in customer engagement and bill savings . It shouldn’t be that hard to do. Utilities need to be incentivized to increase customer participation in demand response and TVR programs in order to improve reliability and resiliency and reduce peak demand, all facilitated by AMI. With consumers more technology savvy than ever before, the time is ripe.

For more information on AMI penetration for individual utilities check out AEE’s Powersuite under the utilities tab and click on advanced energy metrics.