Provided herein are transit systems for travel overhead of streets, having: at least a first vehicle and a second vehicle; a main track on which the vehicles travel, the main track having a suspended overhead rail over the streets by a support structure, such that the vehicles travel at an elevated level overhead of street level; docking stations for the vehicles to lower to the street level for loading and/or unloading passengers and/or cargo; a two-position switch at each docking station, having cables enabling vertical movement of the vehicle, and a replacement track; wherein the two-position switch allows for docking of the first vehicle while the second vehicle passes the docked first vehicle, by enabling lowering of the first vehicle from the elevated level to the street level, and the replacement track providing a track portion for the second vehicle on which to pass the first vehicle.

An imaging disturbance detection device includes an estimation information obtaining unit that obtains pieces of disturbance estimation information indicating whether or not there is imaging disturbance on each of a plurality of imaging devices installed on a railroad car, which is estimated by comparing luminance of images taken by the imaging devices with predetermined reference luminance set; and a disturbance identifying unit that identifies, when it is estimated, on the basis of the obtained pieces of disturbance estimation information, that there is imaging disturbance on a first imaging device, whether or not there is imaging disturbance on a first imaging device on the basis of which one, presence or absence of imaging disturbance, is estimated for a second imaging device, and a length of a period during which it is continuously estimated that there is imaging disturbance on the first imaging device.

An imaging disturbance detection device includes an estimation information obtaining unit that obtains pieces of disturbance estimation information indicating whether or not there is imaging disturbance on each of a plurality of imaging devices installed on a railroad car, which is estimated by comparing luminance of images taken by the imaging devices with predetermined reference luminance set; and a disturbance identifying unit that identifies, when it is estimated, on the basis of the obtained pieces of disturbance estimation information, that there is imaging disturbance on a first imaging device, whether or not there is imaging disturbance on a first imaging device on the basis of which one, presence or absence of imaging disturbance, is estimated for a second imaging device, and a length of a period during which it is continuously estimated that there is imaging disturbance on the first imaging device.

A handhold device of a railcar includes: a frame arranged along a side edge of a specific door opening and connected to a car interior side of a side carshell; a turning mechanism provided at the frame and configured to be turnable about a turning axis extending in an upper-lower direction; and a handle including a base portion connected to the frame through the turning mechanism and a holding portion projecting from the base portion in a direction intersecting with the turning axis. The handle is angularly displaceable about the turning axis between a deployed position where the holding portion is exposed to the specific door opening when viewed from a lateral side of the car body and a storage position where the holding portion is hidden by the side carshell when viewed from the lateral side of the car body.

A handhold device of a railcar includes: a frame arranged along a side edge of a specific door opening and connected to a car interior side of a side carshell; a turning mechanism provided at the frame and configured to be turnable about a turning axis extending in an upper-lower direction; and a handle including a base portion connected to the frame through the turning mechanism and a holding portion projecting from the base portion in a direction intersecting with the turning axis. The handle is angularly displaceable about the turning axis between a deployed position where the holding portion is exposed to the specific door opening when viewed from a lateral side of the car body and a storage position where the holding portion is hidden by the side carshell when viewed from the lateral side of the car body.

A vehicle window with an integrated sensor module, includes a pane main body having a cutout, a sensor module designed as a prefabricated assembly with a module housing, which forms a hollow space, in which at least one sensor is accommodated, wherein the module housing forming the hollow space is inserted into the cutout and is fastened on the pane main body, wherein, together, an outer surface of the module housing and an outer surface of the pane main body form an outer surface of the vehicle window.

A vehicle window with an integrated sensor module, includes a pane main body having a cutout, a sensor module designed as a prefabricated assembly with a module housing, which forms a hollow space, in which at least one sensor is accommodated, wherein the module housing forming the hollow space is inserted into the cutout and is fastened on the pane main body, wherein, together, an outer surface of the module housing and an outer surface of the pane main body form an outer surface of the vehicle window.

A sleeper transport vehicle has a loading area which includes a lower supporting loading plane and an upper supporting loading plane, wherein in each loading plane a guide is arranged in which pallets are guided in the longitudinal direction of the sleeper transport vehicle, wherein, at a front side, a transfer area is arranged into which the guides protrude in order to pass along during a working operation pallets with new sleepers in one loading plane to a further sleeper transport vehicle or loading/unloading vehicle arranged at the front side, and to receive pallets with old sleepers in the other loading plane. In this, it is provided that in each loading plane a pushing device for pushing the pallets along the guide is designed as at least one circulating chain protruding into the transfer area, and that coupling elements are arranged on the pallets for temporary coupling to the chain.

A sleeper transport vehicle has a loading area which includes a lower supporting loading plane and an upper supporting loading plane, wherein in each loading plane a guide is arranged in which pallets are guided in the longitudinal direction of the sleeper transport vehicle, wherein, at a front side, a transfer area is arranged into which the guides protrude in order to pass along during a working operation pallets with new sleepers in one loading plane to a further sleeper transport vehicle or loading/unloading vehicle arranged at the front side, and to receive pallets with old sleepers in the other loading plane. In this, it is provided that in each loading plane a pushing device for pushing the pallets along the guide is designed as at least one circulating chain protruding into the transfer area, and that coupling elements are arranged on the pallets for temporary coupling to the chain.

An image capturing device according to one embodiment includes a camera unit configured to capture images of a surrounding environment and generate image data, a suction-attachment unit configured to support the camera unit and be fixed on a suction-attachment subject surface by a user, a determination unit configured to determine whether or not the image data can be output to a recording unit, and a controller configured to control output of the image data to the recording unit, based on a determination result by the determination unit.