AT&T finally drops million dollar bill shock suit

Talk about bill shock. A business owner in the US state of Massachusetts received a near $900,000 (€733,241) bill from AT&T for calls supposedly made over four days to Somalia.
 
The businessman claimed hackers used AT&T as a "dial around" long-distance service and refused to pay, so the telco giant sued him in 2009 for $1.15 million (of course tacking on more than $200,000 in interest). He later countersued.
 
What’s interesting is that the company, with 14 employees, didn't even have a phone contract with AT&T – its service provider was Verizon, which had noticed a huge increase in international calls over a weekend (to the tune of $260,000) and cut off service. Verizon later wrote off the bill.
 
But not AT&T. According to The Consumerist:
 
AT&T claims the company should've taken more precautions to prevent unauthorized access to its phone system, and that under FCC regulations, it’s allowed to collect the money from the owner of the phone line used to make the calls, even if the business wasn't the one making the calls.
 
AT&T said last week it would drop the three-year-old lawsuit if the businessman dropped his countersuit. The man is consulting with his lawyer.
 
One question is how someone could rack up a near million dollar bill in just four days – at the posted rate of $6.67/min to Somalia, that's nearly 35,000 minutes in calls. Four days has just 5,750 minutes. If the hackers used AT&T's "Value Calling" rate, for the same amount they would have had almost 539,000 minutes (that's almost 374 days).
 
But the shocking question is why did the company pursue a bill it knew was fraudulent and why did it take three years before it stopped harassing the business owner?

Suggested Articles

Wireless operators can provide 5G services with spectrum bands both above and below 6 GHz—but that doesn't mean that all countries will let them.

Here are the stories we’re tracking today.

The 5G Mobile Network Architecture research project will implement two 5G use cases in real-world test beds.