An electrically conductive carriageway marking includes a carrier strip, electrically conductive wires extending along the carrier strip, an electrically insulating covering layer covering the wires, a power feed formed by an interface connecting the wires to a supply line, and interfaces arranged spaced apart from each other along the carriageway marking and having electrical contact areas. The contact areas include contact elements protruding laterally from the carriageway marking, and the supply line is connectable to a first contact area of the wires and a second contact area of the wires by electrical contacts that can be tapped off. In the region of the contact areas the covering layer is formed by a detachable adhesive protective strip, and the protective strip is connected via predetermined break points or perforations to adjoining sections of the covering layer, and the wires are exposed by detaching the protective strip.

An electrically conductive carriageway marking includes a carrier strip, electrically conductive wires extending along the carrier strip, an electrically insulating covering layer covering the wires, a power feed formed by an interface connecting the wires to a supply line, and interfaces arranged spaced apart from each other along the carriageway marking and having electrical contact areas. The contact areas include contact elements protruding laterally from the carriageway marking, and the supply line is connectable to a first contact area of the wires and a second contact area of the wires by electrical contacts that can be tapped off. In the region of the contact areas the covering layer is formed by a detachable adhesive protective strip, and the protective strip is connected via predetermined break points or perforations to adjoining sections of the covering layer, and the wires are exposed by detaching the protective strip.

A system and method for providing increased traffic carrying capacity of a road, such as a highway, by modifying an existing roadway from, for example, four lanes to five lanes, to create an additional travel lane. The system and method dynamically changes the width of travel lanes using, for example, embedded pavement lights, or other lighting arrangements, in lieu of traditional painted lane lines. As traffic volumes increase and speeds decrease along the road, an intelligent transport system (ITS) sends a congestion signal to the overhead lane controls and dynamic message signs (DMS) along the entire road segment of interest. The posted speed limits are changed, and the lane markings are controlled to dynamically increase the number of lanes in the road segment to five, for example, of narrower widths until traffic volumes reduce and the number of lanes can be returned to four, for example, with normal speed limits.

A system and method for providing increased traffic carrying capacity of a road, such as a highway, by modifying an existing roadway from, for example, four lanes to five lanes, to create an additional travel lane. The system and method dynamically changes the width of travel lanes using, for example, embedded pavement lights, or other lighting arrangements, in lieu of traditional painted lane lines. As traffic volumes increase and speeds decrease along the road, an intelligent transport system (ITS) sends a congestion signal to the overhead lane controls and dynamic message signs (DMS) along the entire road segment of interest. The posted speed limits are changed, and the lane markings are controlled to dynamically increase the number of lanes in the road segment to five, for example, of narrower widths until traffic volumes reduce and the number of lanes can be returned to four, for example, with normal speed limits.

A control device includes a control unit configured to execute controls of displaying, on a roadway, a first crosswalk toward a first side of a roadway and displaying, on the roadway, a second crosswalk toward a second side of the roadway, and concealing the first crosswalk from the first side toward the second side while a pedestrian is crossing the roadway from the first side to the second side through the first crosswalk and the second crosswalk and concealing the second crosswalk after the pedestrian has crossed the roadway. The second side is opposite to the first side.

A control device includes a control unit configured to execute controls of displaying, on a roadway, a first crosswalk toward a first side of a roadway and displaying, on the roadway, a second crosswalk toward a second side of the roadway, and concealing the first crosswalk from the first side toward the second side while a pedestrian is crossing the roadway from the first side to the second side through the first crosswalk and the second crosswalk and concealing the second crosswalk after the pedestrian has crossed the roadway. The second side is opposite to the first side.

The present invention provides a floor-type walking signal device for installation in which the device is buried in the ground between a road and a sidewalk, comprising a reflector having a plurality of reflective surfaces respectively corresponding to a plurality of LED elements. The present invention can prevent the luminance from being lowered by using the reflector, even if the distance between light-emitting surfaces and the LED elements is relatively long, and can improve the luminance uniformity on the light exit surfaces.

An electrically conductive carriageway marking includes a carrier strip, electrically conductive wires extending along the carrier strip, an electrically insulating covering layer covering the wires, a power feed formed by an interface connecting the wires to a supply line, and interfaces arranged spaced apart from each other along the carriageway marking and having electrical contact areas. The contact areas include contact elements protruding laterally from the carriageway marking, and the supply line is connectable to a first contact area of the wires and a second contact area of the wires by electrical contacts that can be tapped off. In the region of the contact areas the covering layer is formed by a detachable adhesive protective strip, and the protective strip is connected via predetermined break points or perforations to adjoining sections of the covering layer, and the wires are exposed by detaching the protective strip.

An electrically conductive carriageway marking includes a carrier strip, electrically conductive wires extending along the carrier strip, an electrically insulating covering layer covering the wires, a power feed formed by an interface connecting the wires to a supply line, and interfaces arranged spaced apart from each other along the carriageway marking and having electrical contact areas. The contact areas include contact elements protruding laterally from the carriageway marking, and the supply line is connectable to a first contact area of the wires and a second contact area of the wires by electrical contacts that can be tapped off. In the region of the contact areas the covering layer is formed by a detachable adhesive protective strip, and the protective strip is connected via predetermined break points or perforations to adjoining sections of the covering layer, and the wires are exposed by detaching the protective strip.

A system and method for providing increased traffic carrying capacity of a road, such as a highway, by modifying an existing roadway from, for example, four lanes to five lanes, to create an additional travel lane. The system and method dynamically changes the width of travel lanes using, for example, embedded pavement lights, or other lighting arrangements, in lieu of traditional painted lane lines. As traffic volumes increase and speeds decrease along the road, an intelligent transport system (ITS) sends a congestion signal to the overhead lane controls and dynamic message signs (DMS) along the entire road segment of interest. The posted speed limits are changed, and the lane markings are controlled to dynamically increase the number of lanes in the road segment to five, for example, of narrower widths until traffic volumes reduce and the number of lanes can be returned to four, for example, with normal speed limits.