Gogo’s 2Ku antennas during installation. Credit: Gogo
WASHINGTON — In-flight connectivity provider Gogo Inc. reported increased passenger take-up rates on commercial flights but said last-minute U.S. airline purchases of ADS-B aircraft surveillance gear to meet a regulatory deadline had slowed IFC installations on U.S. business aircraft.
Gogo also pointed to the recent failure of the Intelsat 29e satellite as evidence of the inherent superiority of Ku-band and its large installed base of satellites compared to Ka-band.
In a May 9 investor call, Gogo Chief Executive Oakleigh Thorne and Chief Financial Officer Barry Rowan portrayed the company has emerging from the de-icing problem that took many Gogo terminals out of service in 2018, the American Airlines decision to drop Gogo’s air-to-ground system in favor of Viasat Inc.’s Ka-band satellite solution and the profitability issues that affected all IFC providers.
Thorne said the de-icing issue, in which aircraft de-icing fluid seeped into the Gogo gear, is now over, with 22,000 flights conducted after Gogo’s remedial service, all without incident.
The 550 American Airlines planes that are quitting Gogo for Viasat will all have had their Gogo equipment dis-installed by mid-year.
The business model challenges for IFC providers that had put some of them on a watch list of possible failures have now eased as Gogo and its competitors have pulled back from money-losing deals.
Now is the time for cleaning up the balance sheet. Gogo recently closed a $925-million debt offering at 9.875% due 2024, replacing 12.5% notes.
Gogo told investors in February that it was likely to conclude a transaction by May with strategic of financial investors to cut its debt: http://bit.ly/2E1KMVY
The May date now looks unlikely, but Rowan said discussions have narrowed to a strategic investor.
“This is an extension of conversations we had last fall,  when we were thinking about selling a division,” Rowan said. “Now it looks more like a strategic investment in the company that would come along in conjunction with some kind of commercial arrangement. It would bring in some capital to the company.”
Gogo said passenger take rates — the percent of passengers on Gogo-equipped flights that use the service — increased to 13.9% from 10.5% a year ago on U.S. commercial flights, and to 13.6% from 12.2% on flights in the rest of the world, where Gogo’s growth lies.
Thorne said just 35% of commercial aircraft outside North America are IFC-equipped by Gogo and its competitors, leaving a long runway for growth in the coming years.
Thorne said Gogo has detected what may be a trend in airlines moving to offer free Wi-Fi to passengers, which will increase take rate and could be used as a marketing argument. Gogo customers Virgin Australia and Japan Air Lines have done this, and he suggested that JAL’s market-share lead over rival ANA is in part due to the free-Wi-Fi policy.
The U.S. Federal Aviation Administration (FAA) set an end-2019 deadline for business aircraft to be equipped with ADS-B tracking equipment.
“We underestimated the impact,” Thorne said. “Apparently more owners than we thought procrastinated, and the MROs [maintenance, repair and overhaul] and dealers are now packed with planes trying to complete the install by the year’s end. These installs are crowding out budgets for IFC, but also literally crowding out shop floor space, and dealers are booked for IFC installs.”
The decline in aircraft on line in North America for the period is due to American Airlines moving part of its fleet to Viasat. Credit: Gogo
 
The sudden failure of the Intelsat 29e Ku-band satellite in April forced fleet operator Intelsat to scramble to reassign customers to other Intelsat satellites and, when necessary, onto satellites operated by competitors SES and Telesat: http://bit.ly/2GzIRK8
Gogo has said its decision to use Ku-band for its satellite-based IFC offer was mainly because of the large installed base of Ku-band satellites. Thorne said the IS-29e experience validated that decision. His comments may be read as an implicit dig at Viasat and Inmarsat, competitors that have Ka-band IFC offers.
“Because 29e was in the Ku constellation, customers could be moved rapidly to other satellites, and Intelsat has been able to institute restoration agreements,” Thorne said. “We were not on 29e, but had we been we would have been able to recover quickly.
“It highlights the risk airlines run if the rely on a closed Ka- constellation of three or four satellites that are  meant to cover the entire globe. If one of those satellites is knocked out, that airline could go dark for a substantial portion of the globe, until their provider managed to launch another satellite. Relying on three or four satellites for global coverage is like playing Russian roulette with passengers’ connectivity needs.”
Gogo has bandwidth-lease contracts on 30 satellites owned by 12 operators, including Intelsat. “Most of our providers can move our adage to another satellite within hours, or weeks at most, if they were to suffer the same issue Intelsat just experienced,” he said.
Airline customers have said they would like to see contracts that account for the fact that their aircraft are spending relatively little time inside the satellite beam whose capacity they have leased.
Satellite builders are moving toward flexible beam-forming technologies that can follow the traffic, but a business model that permits airlines to pay only for bandwidth they use has yet to emerge.
Thorne said Gogo is pushing in this direction with its satellite providers.
“Today we lease capacity 24/7, but we only use it when planes are flying underneath it,” Thorne said. “This architecture suffers low capacity utilization and is not particularly conducive to the extreme mobility of the aero market, where demand moves around the planet at all hours of the day.
“We are working with our satellite partners on dynamic beam-forming technologies that are far better tuned to extreme mobility. They’ll give us ability to aim beams where we need them, when we need them, thereby dramatically improving capacity utilization and lowering per-megabit costs in the future.”
Thorne said the open-architecture approach of Gogo will allow the company to adapt to new satellite technologies more quickly than would be possible if it were tied to a given fleet operator.