By John Bertrand
Public works operations and water utility personnel are now using AI-enabled insight to better serve their communities and save money.
Water utilities face the challenge of responding effectively to issues while keeping customers informed and staying on budget. Responding too slowly can result in damaged property, for which the city or utility is liable, and poor customer satisfaction. If utilities respond too quickly, they may be sending an on-call crew to respond to issues that can, and should, wait for normal resolution. That can result in thousands, if not millions, in unnecessary overtime, along with unwarranted interruptions of crew members’ lives.
The Fallacy Of Human Judgment
Many utility crew members are experts in their fields. Unfortunately, they don’t have time to review all incoming customer reports, nor should they be doing so. On the other hand, customers and many call center personnel do not have the knowledge to identify the crux and criticality of the issue. This is true whether calls are handled by a city administrative staff, a county call center that works with multiple cities, an emergency dispatch team, a 3-1-1 team, or a dedicated call center with any sort of employee turnover.
This challenge manifests itself in multiple ways. Consider the following scenarios.
- A customer calls in to a county dispatch office that handles calls for multiple cities after hours. The call-taker can’t find the procedure for that person’s city. The issue gets routed incorrectly, resulting in a delay.
- A customer calls in after hours to report a water-quality issue. The call-taker thinks it sounds like an emergency and sends it to the on-call person. This results in an automatic two hours of overtime. The issue ends up being resolved by simply running the water.
- A citizen sees water coming up through cracks in a street. They go to the city’s web portal to report the issue. They choose what they think the issue is. This requires 1) that they know enough to categorize the issue correctly, and 2) that the portal has the right category for them to choose. In one real example, the citizen chose “storm drain discharge.” The portal routed the report to the solid waste supervisor, delaying a response by the correct team by 30 minutes. This resulted in extra water-loss costs, as well as the social costs associated with prolonged traffic issues.
In each case, time is being wasted that could result in thousands of dollars of damage per incident, or overtime is being spent on issues that could have waited.
Reducing Reliance On Subjective Judgment With Technology
Call center, dispatch, city administrative staff, and others who take customer calls have to keep track of a lot of information, particularly when supporting multiple departments or cities. Providing them with simple tools to relieve some of the burden of having to remember, and make the right decision about, where and when an issue should be reported helps team members route information more accurately. This also allows them to process calls more quickly.
These tools can take two forms. The first simply embeds process rules from the service organization, whether that’s a municipal water department, regional water district, or other entity responsible for the actual callout, into a platform. This platform then helps the call-taker follow the right process for that organization. These rules can include when and to whom calls should be sent, as well as automatic escalation trees.
The second set of tools is more complex. Before sending a report to a utility, the call-taker needs to understand what the core issue is to be able to route it correctly. That’s where artificial intelligence and issue classification come in.
Artificial Intelligence And Issue Diagnosis
For some, artificial intelligence (AI), or “the capability of a machine to imitate intelligent human behavior,”1 feels futuristic and maybe a little scary. In reality, mundane examples of AI exist throughout our daily lives. If you unlock your phone by looking at it, follow a recommended route on Google or Apple maps, or use Google to search for anything, you’re taking advantage of AI.
AI is also already prevalent in the water utilities industry. It takes the increasingly voluminous sets of data being created through advanced metering infrastructure (AMI), SCADA, customer reports, and other sources, and turns them into actionable, and sometimes automated, steps.
In the case of customer calls (or emails, texts, portal submissions, or social posts), AI can be used to analyze incoming data and predict category and criticality. This reduces the reliance on the judgment of a nonexpert caller and helps the call-taker perform more effectively. The AI platform simply needs the caller to describe the symptoms, and then it can make the diagnosis.
An AI platform uses a set of algorithms, or rules it follows, to conduct the analysis and categorization. Those rules were developed by industry experts to reflect the decisions they would make and update dynamically as the platform encounters more data — thus the “intelligence” in “artificial intelligence.”
For example, if a customer reports water coming up through cracks in the street, it would give it a high probably rating of being a water issue. If the person reported a bad odor and toilet paper visible in the water, it would categorize it with a high probability of being a sewer issue.
AI can also be used to identify duplicate reports, facilitating a coordinated response and eliminating additional unnecessary callouts. This also allows the utility to proactively address additional incoming calls with a recorded message acknowledging the issue, or to send out a text blast to the affected area.
Some Examples Of Success Using AI To Improve Response
In one city in North Carolina, using an AI platform to help determine the criticality of customer-reported issues contributed to a 50 percent decrease in overtime, saving the city hundreds of thousands of dollars.
Another city in California used the technology to reduce its response times to under an hour, a requirement of a consent decree that they could not have met otherwise. They also saw an estimated 75 percent reduction in callouts.
Several cities are using AI to quickly identify events that impact multiple people. In one, the AI platform identified an event after seven calls during a winter storm. After the event was identified, callers were greeted with a message about the service interruption. Ninety percent opted to receive text updates rather than talk to a person. Fifty percent of callers uploaded additional information, including photos, to help the team resolve the issue.
These are just a few examples of how utilities, municipalities, and counties are using technology and artificial intelligence to help their teams and better serve their customers.
- Merriam-Webster.com, https://www.merriam-webster.com/dictionary/ artificial%20intelligence, viewed September 21, 2021
About The Author
John Bertrand is an entrepreneur with over 15 years of experience in the water industry. His experience as a consulting engineer and public utility employee lends him an intimate understanding of the customers and industries that Daupler serves. John earned a BS in Civil Engineering from the University of Kansas and is a licensed Professional Engineer.