The invention relates to a luminaire network, comprising a plurality of luminaires comprising a lighting apparatus, wherein a plurality of the luminaires comprise a communication unit configured to enable communication of data between said plurality of luminaires and/or with a central unit; a processing unit; a control unit configured to control the lighting apparatus as well as the communication and processing units and at least one first sensor configured to output first sensed data. The processing unit of the luminaire is configured to process the first sensed data to produce first processed data, and the luminaire network is further configured such that the first processed data of at least two luminaires is further processed to produce second processed data. The invention further relates to a method of processing sensor data in a luminaire network.

A connected vehicle traffic safety system comprises a traffic signal controller and a roadside unit (RSU) located at a one-way traffic lane for avoiding crashes with vehicles of wrong-way drivers by issuing warnings for wrong-way violations. The traffic signal controller is configured to operate a traffic signal. The traffic signal is facing a wrong-way traffic and is set to dwell permanently in a RED signal phase. The one-way traffic lane is configured as a signalized intersection with a wrong-way approach that is programmed as a traffic signal phase dwelling in RED. The roadside unit (RSU) is configured to transmit a Signal Phase and Timing (SPaT) indication for the RED signal phase. A first Onboard Unit (OBU)-equipped vehicle having an Onboard Unit (OBU) that is configured to calculate a RED light violation based on at least one of vehicle location data, direction heading data, and speed data provided from the first OBU-equipped vehicle and the SPaT indication of the RED signal phase to detect the first Onboard Unit (OBU)-equipped vehicle as a wrong-way vehicle.

A wrong way vehicle countermeasure system may include at least one movement sensor positioned along a roadway and a wireless communications device. The system may further include a controller configured to cooperate with the at least one movement sensor to detect a wrong way vehicle on the roadway, and responsive to the detection of the wrong way vehicle on the roadway by the movement sensor, wirelessly send a countermeasure command to the wrong way vehicle via the wireless communications device to cause the wrong way vehicle to perform at least one wrong way driving countermeasure.

A connected vehicle traffic safety system comprises a traffic signal controller and a roadside unit (RSU) located at a one-way traffic lane for avoiding crashes with vehicles of wrong-way drivers by issuing warnings for wrong-way violations. The traffic signal controller is configured to operate a traffic signal. The traffic signal is facing a wrong-way traffic and is set to dwell permanently in a RED signal phase. The one-way traffic lane is configured as a signalized intersection with a wrong-way approach that is programmed as a traffic signal phase dwelling in RED. The roadside unit (RSU) is configured to transmit a Signal Phase and Timing (SPaT) indication for the RED signal phase. A first Onboard Unit (OBU)-equipped vehicle having an Onboard Unit (OBU) that is configured to calculate a RED light violation based on at least one of vehicle location data, direction heading data, and speed data provided from the first OBU-equipped vehicle and the SPaT indication of the RED signal phase to detect the first Onboard Unit (OBU)-equipped vehicle as a wrong-way vehicle.

A system of one or more computers can be configured to perform particular operations or actions by virtue of having software, firmware, hardware, or a combination of them installed on the system that in operation causes or cause the system to perform the actions. One general aspect includes a system, including a server computer having a processor and a memory, the memory storing instructions executable by the processor such that the computer is programmed to detect a first vehicle in a first lane adjacent to a second lane and plan a first vehicle trajectory for the first vehicle to be placed in a queue in the first lane and, from the queue, transition from the first lane to the second lane based upon at least one determined characteristic of the first vehicle and a second vehicle trajectory and control the first vehicle based upon the first vehicle trajectory.

A system of one or more computers can be configured to perform particular operations or actions by virtue of having software, firmware, hardware, or a combination of them installed on the system that in operation causes or cause the system to perform the actions. One general aspect includes a system, including a server computer having a processor and a memory, the memory storing instructions executable by the processor such that the computer is programmed to detect a first vehicle in a first lane adjacent to a second lane and plan a first vehicle trajectory for the first vehicle to be placed in a queue in the first lane and, from the queue, transition from the first lane to the second lane based upon at least one determined characteristic of the first vehicle and a second vehicle trajectory and control the first vehicle based upon the first vehicle trajectory.

A radar traffic sign apparatus is provided comprising an electronic or a motorized radar traffic sign. The electronic sign has at least one metasurface to shape complex configurations such as plane and/or corner reflectors. Each metasurface has a top layer of PCB board for controllable elements, a ground layer, and biasing means comprising diodes or switches. The state of the sign can be changed by the elements attached to the top layer. A bias voltage applied at the biasing means causes states of at least one element to change, and an operation mode of the metasurface to switch. The motorized sign may include multiple planes to shape a specific corner reflector with proper RCS. The direction or opening of a motorized sign can be controlled. The radar traffic sign has an ON mode to reflect the radar signal, and an OFF mode where the radar signal is not reflected.

A traffic safety system is provided for controlling the entry of motorists onto one way roads. The system has a motion detection unit which identifies the presence of motor vehicles travelling the wrong direction on one way roads, highway exit ramps and entrance ramps. Upon detection of a vehicle, the system activates audible and visual warnings. If the motorist does not stop moving, a barrier will deploy and a camera unit will photograph the license plate of the vehicle before transmitting same to local authorities. Additionally, a set of warming indicators positioned at a far end of the road are provided, which illuminate when the system is deployed, notifying travelers of a road blockage.

Methods and systems are described for providing increased success in detecting a motor vehicle traveling against a designated direction of travel in a roadway. Multiple signals among various system constituents are checked against each other to ensure the lack of a false wrong way indication otherwise possible by use of a single detector. An alert is provided to the wrong way motor vehicle operator and other vehicle operators in the vicinity of detection. The alert promotes the potential for avoiding head-on collisions between vehicles and for saving lives. A long-range or cellular communication may be broadcast to further provide an alert of a wrong way event and to dispatch emergency personnel to the vicinity.

Disclosed are techniques for traffic flow control. In an aspect, an on-board computer (OBC) of a vehicle of a secondary traffic flow determines that a primary traffic flow is passing through an intersection associated with a traffic light, wherein the determination that the primary traffic flow is passing through the intersection is based on sensor data from one or more sensors of the vehicle, vehicle-to-vehicle (V2V) communication, vehicle-to-everything (V2X) communication, or any combination thereof, and reduces a speed of the vehicle to prevent the vehicle from tripping a traffic light sensor associated with the traffic light until after the primary traffic flow has passed through the intersection.