A bollard system having a main post; a post collar; a base plate; and an energy-absorbing element. The base plate has an arcuate outer wall and inwardly projecting mounting fastener notches around the bottom of the base plate. The post, the post collar and the base plate are shaped such that when the post is loaded above the base plate, an obliquely, downwardly directed sliding movement of the post and post collar relative to the base plate is obtained and is damped by the energy-absorbing element.

A self-rightening post system is configured to secure a post in a casing in a desired or vertical orientation and to self-righten the post upon the removal of a deflecting force, such as from a car or lawnmower. A self-rightening post system utilizes a plurality of adjustable retainer assemblies that are configured around the post and coupled to a collar. Each of the adjustable retainer assemblies has an adjustment extension with a threaded portion in the collar to change the compression of a spring extending therefrom toward the post. A post flange may be coupled to the post end of the spring to provide a planar surface for exerting a retaining force on the post. The collar is configured over a casing and configured to rotated with respect to the casing. Retainer extensions extend from the collar down along the casing to secure the collar in position.

A system and method for marking the locations of curbs, driveways, roads, and boundaries utilizes a plurality of elongated, flexible, resilient markers installed within the ground by a rigid, elongated tubular member having a diameter greater than the diameter of the markers to be installed. The tubular member has a closed capped top and an open bottom. A given location marker is positioned perpendicular to the ground, adjacent to the location of a curb or driveway. The open bottom end of the tubular member is then positioned over the top end of the location marker and the tubular member is slid down over the marker. The impact of the closed top of the tubular member on the top end of the location marker drives the marker into the ground.

In one embodiment of the present disclosure, an attachment assembly for coupling to a base plate includes a substantially planar attachment plate having a top side and a bottom side, a magnet assembly including at least three magnets, each of the at least three magnets having a first side and a second side opposite the first side, the first sides of the at least three magnets are configured for coupling with the bottom side of the attachment plate, wherein the at least three magnets each have a first end and a second end, such that the first end of each magnet is adjacent a second end of an adjacent magnet to form an array, and a shim plate removably coupled to the second side of the at least three magnets.

A support for a marker pole, comprising a ground-embedded ground spike (5) in the form of a straight rod and a marker pole holder in the form of a spiral (1, 2), characterized in that one or more of the uppermost turns (1) of the spiral have a larger inner diameter than the lower turns (2) of the spiral.

An apparatus includes a post having a first end and a second end, the post having a flange disposed at the first end, at least one anchor assembly, and a base assembly including an opening for receiving the first end of the post, and an anchoring region including at least one aperture for receiving the at least one anchor assembly, the base assembly having a shape that is bisectable by a line segment into a first region and a second region. The opening has a first centroid disposed in the first region and the anchoring region has a second centroid disposed in the second region.

Systems and methods for deploying emergency roadside signaling devices are disclosed. In one aspect, a control system for an object placing device of an autonomous vehicle includes a processor, and a computer-readable memory in communication with the processor and having stored thereon computer-executable instructions to cause the processor to: receive a signal comprising instructions to activate the object placing device; and provide instructions to the object placing device to place a plurality of signaling devices in accordance with predetermined criteria.

Systems and methods for deploying emergency roadside signaling devices are disclosed. In one aspect, system for an autonomous vehicle includes one or more signaling devices configured to visually notify other vehicles when placed on or near a roadway, and an object placing device configured to place the one or more signaling devices. The system further includes a processor and a computer-readable memory in communication with the processor and having stored thereon computer-executable instructions to cause the processor to: determine that the autonomous vehicle has experienced a malfunction, and provide instructions to the object placing device to place the one or more signaling devices on or near the roadway.

Embodiments are directed to a traffic control assembly, which includes a reinforced mounting base selectively mountable adjacent a roadway, a primary flexible tubular member, a reinforcing member, a retaining member, and a retaining pin. In accordance with at least one embodiment, the primary flexible tubular member is coupled to the reinforcing member, where the reinforcing member is configured to provide elastic support to the primary flexible tubular member against an impact by a moving vehicle. In accordance with at least one embodiment, the primary flexible tubular member is coupled to a structural insert on the opposite end from the base, the structural insert is further coupled to a secondary flexible tubular member to increase the resiliency of the traffic control assembly against an impact by a moving vehicle.

Systems and methods for deploying emergency roadside signaling devices are disclosed. In one aspect, a control system for an object placing device of an autonomous vehicle includes a processor, and a computer-readable memory in communication with the processor and having stored thereon computer-executable instructions to cause the processor to: receive a signal comprising instructions to activate the object placing device; and provide instructions to the object placing device to place a plurality of signaling devices in accordance with predetermined criteria.