A people conveyor (1) comprises a truss (2) extending between two landing portions (20, 21); a band (12) of conveyance elements (13) forming a closed loop extending in a conveyance direction between the two landing portions (20, 21); a drive machine (25) configured for driving the band (12) of conveyance elements (13); and at least two magneto-inductive sensors (36a, 36b, 36c) mounted to the truss (2). The at least two magneto-inductive sensors (36a, 36b, 36c) are configured for providing sensor signals which allow determining the position and orientation of the drive machine (25) with respect to the truss (2).

A passenger conveyor diagnostic system includes a mobile terminal in signal communication with a cloud computing network. The cloud computing network stores at least one diagnostic algorithm. The mobile terminal device is configured to determine ride quality data of a passenger conveyor system, and to exchange the ride quality data with the cloud computing network. The mobile terminal device further displays one or more diagnostic results which are received from the cloud computing network. The diagnostic result is generated by the cloud computing network in response to applying the at least one diagnostic algorithm to the ride quality data.

A passenger conveyor diagnostic system includes a mobile terminal in signal communication with a cloud computing network. The cloud computing network stores at least one diagnostic algorithm. The mobile terminal device is configured to determine ride quality data of a passenger conveyor system, and to exchange the ride quality data with the cloud computing network. The mobile terminal device further displays one or more diagnostic results which are received from the cloud computing network. The diagnostic result is generated by the cloud computing network in response to applying the at least one diagnostic algorithm to the ride quality data.

A passenger conveyor has a guardrail belt configured to run on a pair of right and left handrails in synchronization with footsteps; a camera provided at a platform of the handrail; and a control device configured to analyze an image obtained by photographing the platform with the camera, detect a passenger getting in from the platform, stop the footsteps or lower a running speed than a normal speed when detecting no passenger for a predetermined time, and move the running speed of the footsteps at the normal speed when detecting the passenger.

A passenger conveyor has a guardrail belt configured to run on a pair of right and left handrails in synchronization with footsteps; a camera provided at a platform of the handrail; and a control device configured to analyze an image obtained by photographing the platform with the camera, detect a passenger getting in from the platform, stop the footsteps or lower a running speed than a normal speed when detecting no passenger for a predetermined time, and move the running speed of the footsteps at the normal speed when detecting the passenger.

A pitless and modular belt-type accelerating moving walkway transit system including at least three substantially identical walkway modules that are leveled and positioned atop a surface such as the ground, floor, road or deck. Each module has an endless belt moving at a different or the same speed wherein the at least three walkway modules are positioned linearly adjacent. Each module having one or more electric motors operably connected to an electrical source and handrails on opposing sides that move in synchrony with the endless belt of the same module.

A pitless and modular belt-type accelerating moving walkway transit system including at least three substantially identical walkway modules that are leveled and positioned atop a surface such as the ground, floor, road or deck. Each module has an endless belt moving at a different or the same speed wherein the at least three walkway modules are positioned linearly adjacent. Each module having one or more electric motors operably connected to an electrical source and handrails on opposing sides that move in synchrony with the endless belt of the same module.

A moving walkway transit system having a moving walkway and a beltway control system for monitoring and controlling various operational aspects of the moving walkway. A method of using the beltway control system to operate and monitor the moving walkway.

A moving walkway transit system having a moving walkway and a beltway control system for monitoring and controlling various operational aspects of the moving walkway. A method of using the beltway control system to operate and monitor the moving walkway.

A pitless and modular belt-type accelerating moving walkway transit system including at least three substantially identical walkway modules that are leveled and positioned atop a surface such as the ground, floor, road or deck. Each module has an endless belt moving at a different or the same speed wherein the at least three walkway modules are positioned linearly adjacent. Each module having one or more electric motors operably connected to an electrical source and handrails on opposing sides that move in synchrony with the endless belt of the same module.