Evolving ACARS landscape backbone of connected aircraft age
An evolving multi-link ACARS landscape, embracing cutting-edge cockpit connectivity and solid VHF foundations, will remain the backbone of the aviation industry for the foreseeable future. So says SITAONAIR in its latest white paper, ACARS: Timeless tech for the connected aircraft age.
With a staggering 7.2 billion passengers expected to take to the skies in 2035, according to IATA projections, SITAONAIR’s latest report argues that driving the evolution and diversification of its ACARS technologies is key to empowering the industry to negotiate an increasingly crowded airspace.
SITAONAIR recently announced major partnerships with Inmarsat and Teledyne Controls that illustrate the adaptability of ACARS capabilities for emerging technologies, reflecting and supporting the diverse global aviation community in the connected aircraft age.
SITAONAIR has added Inmarsat’s SwiftBroadband-Safety (SB-S) to its portfolio; an ACARS-reliant next-generation flight deck communications platform giving airlines a dedicated IP connectivity service supporting enhanced safety and operational efficiency.
Working with Teledyne Controls, SITAONAIR is delivering the aviation industry’s first-ever airline-integrated ACARS datalink terrestrial cellular 3G/4G service. Employing Teledyne Controls’ GroundLink® Comm+ system, SITAONAIR is able to integrate terrestrial cellular services into its core datalink network, giving airlines the flexibility and benefit of another transmission channel for aircraft communications.
Meanwhile, VHF, VDL and legacy networks continue to be adopted, advanced, and work alongside these alternate technologies, around the world. Among these significant programs, detailed in the white paper, SITAONAIR has upgraded Europe’s primary ATC-airline communications network, delivering Europe’s first Multi-Frequency (MF) Very High Frequency Digital Link mode 2 (VDLm2) infrastructure. In March 2017 the Czech Republic’s Air Navigation Service Provider, ANS CR, appointed SITAONAIR to deliver a “communication gateway” to Prague Airport and others – through its ACARS network.
The company’s VHF/VDL network has also established an important new aircraft communications infrastructure in developing parts of the world, with more than 50 sites established in Brazil prior to the Rio Olympic Games.
Evolving ACARS landscape
Paul Gibson, Portfolio Director, AIRCOM at SITAONAIR, explains: “SITAONAIR’s ACARS network continues to evolve from its VHF origins, embracing satellite services, VHF and higher-speed VHF Digital Link (VDL), to deal with the steady rise in air traffic.
“Our recent announcement with Inmarsat on our adoption of SwiftBroadband-Safety to our wide-ranging connected aircraft portfolio will prove critical. We’re excited about the potential SB-S will bring to enable us to further innovate new, and enhance our existing, services and solutions, around a dedicated, secure IP connection to the cockpit.
“SITAONAIR is taking strides to ensure the ACARS network is evolving in tandem with the digital age, to enable message transmission using alternate technologies. Traditional ACARS and ACARS over IP will have a mutually important role to play in the ground-to-air connectivity landscape. Whether supporting the transmission of millions of ACARS messages exchanged every day, advancing Brazil’s complete VHF and VDL datalink network ahead of the Rio Olympics, or launching a next-generation flight deck IP communications platform, SITAONAIR is and will remain central to our industry’s ACARS story.”
ACARS remains heavily integrated into the ground systems of most airlines. Huge volumes of vital aircraft data come to and from aircraft via ACARS messaging, with 220 airlines now relying on SITAONAIR’s multi-link ACARS technology. The white paper highlights why ACARS, in its diversity, remains the most reliable, efficient and cost-effective ground-to-air messaging system, with SITAONAIR as its core service provider.
To find out more, download the full white paper, ACARS: Timeless tech for the connected aircraft age.