By Type:
Fixed bridge systems are widely used at airports for passenger boarding, as they provide a stable platform for passengers to board and disembark from the aircraft.
Moveable bridges, on the other hand, offer flexibility in terms of adjusting to different aircraft sizes and configurations.
By Model Type:
Dual Boarding System bridges cater to the increasing demand for faster boarding processes by allowing two streams of passengers to board simultaneously.
Commuter Bridge models are designed for smaller aircraft used for short-haul flights.
Apron Drive Bridges are equipped with a drive system to move along the apron and reach various aircraft parked at the terminal.
Nose Loader Bridges are specifically designed for aircraft with front-facing cargo doors.
T-Bridges and Over-the-Wing Bridges provide unique boarding solutions for aircraft with specific loading requirements.
By Technology:
Advanced technology such as automation and remote control systems are increasingly being integrated into boarding bridge designs for improved efficiency and passenger experience.
Some bridges also incorporate sensors and cameras for enhanced safety during the boarding process.
By Material:
Aluminum is a commonly used material for boarding bridges due to its lightweight properties and durability, making it ideal for frequent use in airport environments.
Steel is another popular material choice for boarding bridges, known for its strength and longevity.
By Point of Sale:
The market for boarding bridges is primarily segmented based on the point of sale, with manufacturers selling directly to airports or through distributors and dealers.
Value-added services such as installation, maintenance, and support also play a significant role in the point of sale segment.
By Structure:
The structure of boarding bridges varies based on the type and model, with some featuring telescopic arms for flexibility in reaching different aircraft doors.
Other bridges have fixed structures that are more suitable for specific aircraft configurations.