Abstract: An encrypted traffic signal device controller (TSDC) and an Electronic Variable Message Sign (EVMS) at intersection roadways and related traffic intersections where the invention system is installed at traffic light intersections which will be triggered at the red light sequence where vehicles/pedestrian/cyclists are stopped. After the traffic light turns red, the time delay of the red light will trigger an audio and visual public announcement which will be of assistance to the driver and enable the driver to pay attention to the announcement without being concerned about diverting the driver's attention from driving the vehicle since the vehicle is stopped at a red light and the driver can devote his attention to reading the information provided.

Abstract: A system for estimating the lane width and/or the number of lanes on a roadway includes environmental sensors mounted on a vehicle to monitor respective detection areas behind and to the sides of the vehicle. The sensors detect a roadway edge and the system determines a distance to the roadway edge. The system further determines a value or accesses a predefined nominal value of a lane width, and then estimates the number of lanes by evaluating the roadway edge distance with reference to the lane width value.

Abstract: A computer-implemented method for performing an electronic transaction using a payment computer coupled to a database is provided. The transaction includes an item purchased in association with a vehicle and initiated by a cardholder with a merchant.

Abstract: A system for passive entry and/or passive start for a motor vehicle is described, which includes an antenna group and an electronic control unit designed to be coupled to the vehicle, the electronic control unit for controlling the antenna group to cooperate with a portable recognition device carried by a user to enable the entry and/or start of the vehicle. The antenna group has at least a first antenna and a second antenna, designed to operate within the frequency range, and according to the communication protocol, of the Bluetooth standard, and having a respective radiation lobe; wherein the first antenna and the second antenna are arranged so that their radiation lobes are arranged on opposite sides with respect to a longitudinal symmetry axis of the motor vehicle.

Abstract: A road and path lighting system having a lighting apparatus including a projection unit for projecting signals onto a projection area, and a communications module designed to control the projection unit on the basis of incoming input signals. The system also includes a lighting apparatus having a light source, a transmission unit, and a communications module for actuating the light source on the basis of data which is transmitted by the transmission unit, and a wireless data communications unit by which the transmission unit is connected wirelessly to a receiver of the communications module. The transmission unit preferably has an independent energy source. The transmission unit can also be designed as a sensor unit having a sensor, the sensor unit being provided on the lighting apparatus, in particular on the outside thereof. Further disclosed is, a method for outputting signals of the road and path lighting system.

Abstract: A determination unit that determines whether a vehicle is in a lane change state where the vehicle is going to make a lane change from a travelling lane to a recommended lane; and a display control unit that causes a display unit to display the front image on which a guide line is superimposed, wherein the guide line has a front end point and a rear end point, are provided. In the lane change state, the display control unit sets a position of the rear end point in the front image such that the rear end point indicates a central position in a width direction of the vehicle, and, not in the lane change state, the display control unit sets a position of the rear end point in the front image such that the rear end point indicates a central position in a width direction in the travelling lane.

Abstract: A hardware traffic control device controls vehicular traffic on a one-way roadway. A hardware sensor detects vehicular traffic on a roadway in order to enable a hardware traffic control device to determine that the vehicular traffic on the roadway has been moving exclusively in a first direction during a preceding period of time, thus identifying the roadway as a one-way roadway in which current vehicular traffic is authorized to travel only in the first direction. The hardware sensor then detects an errant vehicle that is traveling in the opposite direction on the one-way roadway. A disabling electronic signal is then transmitted from the hardware traffic control device to disable a distracting electronic device within the errant vehicle.

Abstract: System and method for determining the distance between a radio beacon and a vehicle device passing in the radio beacon, in a road toll system. A signal having a known temporal profile is emitted by one of the radio beacon and vehicle device. The signal is captured in the other component during the passing of the device and the temporal profile of the frequency is recorded in relation to the known temporal profile; a modification in the recoded frequency profile exceeding a first threshold value is detected; two distant wave zones in the frequency profile, lying temporally in front of and behind the detected modification are determined, the zones displaying a frequency modification below a second threshold value are searched for; the recorded frequency profile is scaled in such a way that the distant wave zones take the predetermined values; and the distance is determined from the scaled frequency profile.

Abstract: Wireless sensing and communication system including sensors located on the vehicle, in the roadway or in the vicinity of the vehicle or roadway and which provide information which is transmitted to one or more interrogators in the vehicle by a wireless radio frequency mechanism. Power to operate a particular sensor is supplied by the interrogator or the sensor is independently connected to either a battery, generator, vehicle power source or some source of power external to the vehicle. The sensors can provide information about the vehicle and its interior or exterior environment, about individual components, systems, vehicle occupants, subsystems, or about the roadway, ambient atmosphere, travel conditions and external objects. The sensors arranged on the roadway or ancillary structures would include pressure sensors, temperature sensors, moisture content or humidity sensors, and friction sensors.

Abstract: The invention includes a vehicular sensor node, circuit apparatus and their operations. Power from power source is controlled for delivery to radio transceiver and magnetic sensor, based upon a task trigger and task identifier. The radio transceiver and the magnetic sensor are operated based upon the task identifier, when the task trigger is active. The power source, radio transceiver, magnetic sensor, and circuit apparatus are enclosed in vehicular sensor node, placed upon pavement and operating for at least five years without replacing the power source components. Magnetic sensor preferably uses the magnetic resistive effect to create magnetic sensor state. Radio transceiver preferably implements version of a wireless communications protocol. The circuit apparatus may further include light emitting structure to visibly communicate during installation and/or testing, and second light emitting structure used to visibly communicate with vehicle operators.

Abstract: Driving condition monitoring system for a vehicle on a travel surface includes stationary mounting structures arranged proximate the travel surface, and sensors located in the mounting structures in a vicinity of the travel surface and apart from the travel surface. The sensors generate information about the travel surface or an environment around the travel surface. An arrangement on the vehicle or associated with the sensors initiates a transmission of the information generated by each sensor to the vehicle when the vehicle is proximate the sensor.

Abstract: A hardware traffic control device controls vehicular traffic on a one-way roadway. A hardware sensor detects vehicular traffic on a roadway in order to enable a hardware traffic control device to determine that the vehicular traffic on the roadway has been moving exclusively in a first direction during a preceding period of time, thus identifying the roadway as a one-way roadway in which current vehicular traffic is authorized to travel only in the first direction. The hardware sensor then detects an errant vehicle that is traveling in the opposite direction on the one-way roadway. A disabling electronic signal is then transmitted from the hardware traffic control device to disable a distracting electronic device within the errant vehicle.

Abstract: The invention relates to a method for determining the distance between a radio beacon and a vehicle device passing in front of said radio beacon, in a road toll system. A signal of a frequency having a known temporal profile is emitted. Said method consists of the following steps: the signal is captured in the other component when passing and the temporal profile of the frequency is recorded in relation to the known temporal profile; a modification in the recorded frequency profile exceeding a first threshold value is detected; two distant wave zones in the frequency profile, lying temporally in front of and behind the detected modification, which displays a frequency modification below a second threshold value, are searched for; the recorded frequency profile is scaled in such a manner that the distance wave zones take the predetermined values; and said distance “a” from the scaled frequency path is determined.

Abstract: A system and method for Dedicated Short-Range Communication (DSRC) between beacons and onboard units of a road toll system, wherein the beacons have a system-wide key and the onboard units have only individual keys, which are respectively formed from the system-wide key on the basis of a derivation code specific to the onboard units, wherein upon a communication from the onboard unit the derivation code is transmitted to the beacon in order to enable the beacon to emulate the individual key to encrypt/decrypt the communication with the onboard unit and/or for access to data stored in the onboard unit, and wherein upon communications with consecutive beacons the onboard unit transmits varying derivation codes.

Abstract: A surveillance system for monitoring a plurality of vehicle license plates comprising a portable license plate reader including a camera for automatically imaging a license plate and extracting a character string from the image for each of a plurality of moving vehicles that pass through a field of view of the camera without detection by the moving vehicles. A mobile surveillance unit positioned in proximity to the license plate reader for receiving the extracted character string from the reader, comparing each extracted character string with a list of target plate numbers, and generating an audible alarm and a visual display when a match is found. An operations center for communicating with the mobile surveillance unit to receive each extracted character string from the mobile surveillance unit and to update the list of target plate numbers stored at the mobile surveillance unit.

Abstract: In a method for line-of-sight-independent data transmission in a car-to-car or a car-to-infrastructure communication system, electromagnetic radiation having encoded data is transmitted from a transmitter located in a first vehicle or in a traffic infrastructure object, and a reflector system is provided for at least partially reflecting the transmitted electromagnetic radiation, wherein the reflector system is arranged so that the transmitted electromagnetic radiation arrives at a receiver located in a second vehicle or in the traffic infrastructure object. The reflected electromagnetic radiation having the encoded data can then be received by the receiver even when line-of-sight communication between the vehicles is impossible.

Abstract: A method for interleaving time slots in a multi-antenna system for communication with RFID tags is disclosed. An example is shown for an eight antenna system. A first four antennas arranged side-by-side are sequentially energized to interrogate RFID transponders. A second set of four antennas arranged side-by-side, the first of which is adjacent to the last of the first set of antennas. A four-antenna sequence is performed for the first four antennas and a second four antenna sequence is performed for the second set of antennas. The first and second four antenna sequences are offset by only a marginal amount, sufficient to ensure that a transponder signal received four antennas away from an active antenna is not acknowledged because the receive window for the non-active antenna is delayed.

Abstract: A Radio Frequency Identification (RFID) tag for use with a vehicle according to one embodiment includes a housing adapted for permanent or detachable coupling to the vehicle, control circuitry coupled to the housing, and a battery for providing power to the control circuitry. A secondary power source is also present for recharging the battery. A memory stores information relating to at least one of the vehicle and an owner of the vehicle. The capability of recharging the battery greatly extends the active (self-powered) life of the tag. Systems for tracking ownership of objects, servicing of vehicles, and other applications, as well as methods are also presented.

Abstract: Providing traffic flow control services includes receiving requests at an arbiter of a traffic control subsystem. The traffic control subsystem is in a first state, and the requests are received from vehicle transmitters in proximity of the traffic control subsystem. Traffic flow control services also include applying a pre-defined condition to the requests and implementing a traffic flow control activity responsive to application of the pre-defined condition. The traffic flow control activity includes maintaining the first state or changing the first state of the traffic control subsystem to a second state.

Abstract: In some implementations, a method for wirelessly communicating with the processor of a vehicle includes receiving, from a status module in a vehicle, a value for a dynamic attribute of the vehicle. The value for the dynamic attribute is wirelessly transmitted, from the vehicle, to a Radio Frequency (RF) reader.

Abstract: Control devices and methods for a road toll system that is based on vehicle-based on-board units, using recording vehicles, control vehicles and a violation server, wherein the recording vehicle reads out a toll parameter from the on-board unit of a passing vehicle via a DSRC radio interface, compares it to a shape parameter of the vehicle detected by a sensor, and based thereon, in case of inconsistency, generates a violation data record and transmits it to the violation server, wherein the control vehicle registers the position or surroundings thereof in the violation server, and the violation server makes available to a control vehicle such violation data records, the locations of the violations of which are within the surroundings of a position of the control vehicle, wherein the control vehicle issues an alert message when it detects a violating vehicle in the surroundings, and wherein, during the transmission of a violation data record from the recording vehicle to the violation server and/or from the v

Abstract: Systems and methods for requesting modification of traffic flow control systems that combine satellite position navigation systems and dead reckoning technology with secure radio communications to accurately report a vehicle's real-time location and estimated arrival times at a series of signal lights within a traffic grid or at a distant signal light, while enabling signal controllers to accommodate priority requests from these vehicles, allowing for these vehicles to maintain a fixed schedule with minimal interruption to other grid traffic.

Abstract: An automatic identification apparatus includes a control module configured as an integrated component of a vehicle and an electrical power interface receptive to a power signal from the vehicle. The electrical power interface provides electrical power to the control module. The automatic identification apparatus also includes an antenna electrically connected to the control module. The antenna transmits a radio wave indicative of a unique identification. The antenna is configured as an integrated component of the vehicle and is located to communicate the radio wave external of the vehicle. The automatic identification apparatus further includes a memory interface assembly configured as an integrated component of the vehicle. The memory interface assembly is receptive to a memory device encoded with the unique identification. The memory interface assembly communicates the unique identification to the control module when the memory device is received in the memory interface assembly.

Abstract: A system for managing vehicular traffic on a roadway includes a sensing unit positioned within a vehicle traveling on the roadway. The sensing unit is configured to determine occupancy data based on the number of passengers within the vehicle. An ambient light sensor is operatively associated with the sensing unit such that upon sensing an intensity of ambient light, an adjustment is made to the system to aid in the determination of occupancy data. The occupancy data is configured to be communicated to one or more receiving units positioned above or proximate the roadway.

Abstract: A system and method for self-optimizing traffic flow using shared vehicle information that utilizes multiple controllers in dynamic communication to optimize the flow of traffic. The system and method utilizes one or more traffic synchronization controllers (TSCs) (receivers) that receive information from one or more vehicle based transmitters called vehicle information agents (VIAs) and/or a network of traffic control devices (TCDs) associated with the traffic synchronization controllers to determine a variety of information related to traffic within a geographic region, including volume, speed, destination, intended route of the vehicle, as well as other vehicle related information, in order to determine the optimal flow of traffic within the region. The system and method then transmits traffic control signals to the various traffic control devices within the region or adjacent regions in order to optimally control the flow of traffic.

Abstract: An emergency traffic system is provided. The emergency traffic system may include a power source, a battery, an emergency traffic light, a light sensor, a mounting assemblage, a computer and an existing traffic light system. The emergency traffic system may be mounted on a traffic light system, whereby the light sensor may be secured to at least one traffic light thereof. The computer may receive electrical signals from the light sensor so as to learn and record the history of the traffic light patterns of the traffic light system. In the next step, the computer compares the instant traffic light pattern to the history of traffic light patterns during the operation of the traffic light system being monitored. If the instant traffic light pattern is not found in the history, then the computer transmits the on signal to the emergency traffic light. If the instant traffic pattern is found in the history then the computer continues to monitor the step comparison.

Abstract: A cylindrical hollow body fence post disposed according to the present invention features a first closed-geometry longitudinally hollow inner profile interconnected by at least two longitudinally extending bridging elements to a second closed-geometry longitudinally extending outer profile. The tubular post comprises one or more longitudinal housing for receiving illuminating elements. The illuminating elements are powered by a solar panel. The longitudinal housings receiving the illuminating elements are closed by longitudinal coverings providing a dovetail connection with the open end of the housings.

Abstract: Systems, Methods, and Apparatus for enhanced transponder programming in an open road toll system are disclosed. An example method includes transmitting, in a normal mode, a programming signal from one of the antennas over a first coverage area to instruct the transponder to store data in its memory, the data being contained in the programming signal. The example method further includes determining that the transponder did not store the data in its memory. Based on the determination that the transponder did not store the data in its memory the programming signal is transmitted in an enhanced mode, from one antennas over a second coverage area.

Abstract: An electronic toll collection (ETC) system and an on board unit (OBU) thereof are provided. The ETC system includes a toll collection module and an identification module. The toll collection module provides a pre-pay service and a post-pay service such that the OBU on a vehicle can make a toll payment in response to one of the pre-pay service and the post-pay service. The identification module captures an image of the vehicle and provides an identification service to the OBU to obtain an identification information of the vehicle.

Abstract: A system includes a vehicle processor configured to communicate with an intelligent street light to receive advertisements pertaining to local businesses. The processor is also configured to store a plurality of received advertisements. The processor is further configured to sort the advertisements based on one or more user factors. Also, the processor is configured to determine an appropriate time for advertisement delivery and deliver the advertisements at the appropriate time.

Abstract: A beacon with a transceiver for radio communication with vehicle OBUs of a road toll system, wherein the transceiver has a directional antenna and is configured to communicate wirelessly with OBUs on a selected channel directed via the directional antenna wherein the transceiver is additionally equipped with an omnidirectional antenna and is configured to transmit, before the beginning of a directional radio communication, by means of the omnidirectional antenna a channel reservation message and/or to check, before the beginning of a directional radio communication, by means of the omnidirectional antenna whether the selected channel is free.

Abstract: The invention relates to a road gantry comprising a horizontal beam (2), the upper surface (21) of which constitutes a passageway for service personnel to cross, the gantry being characterized in that it comprises arms (25) for bearing apparatuses (30) for monitoring road traffic, electronic toll collection, or signaling, wherein said arms are pivotably attached to the horizontal beam so as to be able to move from a first position, in which the arms extend towards the road, into a second position for stowage on said passageway, and vice versa. The passageway may comprise protection guardrails (22, 23) in which openings (24) are formed, said openings being shut by door panels (24) arranged so as to enable the passage of said arms (25) from said first position to said second position and vice versa. The invention also relates to a barrier-free electronic toll collection station including at least one such gantry.

Abstract: When multiple readers for RF transponders have to be placed in close proximity, such as in adjacent lanes of a highway toll barrier, they can be set to operate at different frequencies. When signals from two adjacent ones of the readers interfere, the resulting signal includes interference terms whose frequencies equal the sum of the reader frequencies and the difference between the reader frequencies. To remove such interference terms while passing the desired terms, a tag includes a low-pass or other frequency-selective filter.

Abstract: A system and method for assisting drivers of Bomb Carts and Shuttle Carriers to position their vehicles appropriately for loading and unloading containers at a gantry crane. The system uses laser scanners mounted at various levels on the gantry crane sill beams to determine the type, position, orientation and skew angle of the vehicles as well as whether the vehicles are in a loaded or unloaded condition. In addition, the system provides indicator devices to direct drivers how to move their vehicles.

Abstract: Control devices and methods for a road toll system that is based on on-board units carried by vehicles, comprising: in a marking vehicle detecting a traffic or toll violation of an on-board unit, and, if a violation exists, transmitting a marker to the on-board unit via a DSRC radio interface; in an on-board unit periodically determining, upon receipt of a marker, the position of the unit and broadcasting a position message containing the respective current position; and in the control unit: detecting the vehicle based on at least one of the position messages that are broadcast by the on-board unit.

Abstract: An on-board unit (OBU) with a driving-assistance function to be installed on a vehicle includes at least one wireless communication unit and a processing unit. The processing unit receives information of at least one first traffic signal and at least one second traffic signal respectively from their RSUs through the at least one wireless communication unit. The first traffic signal is installed at a first intersection, the at least one second traffic signal is installed at a second intersection, and the vehicle is closer to the first intersection than to the second intersection. The processing unit generates a suggested speed range, within which the vehicle may travel to allow the same to pass through the first intersection and the second intersection without stopping, according to the information of at least one first traffic signal and the at least one second traffic and vehicle position information of the vehicle.

Abstract: A parking management system that facilitates motorist guidance, payment, violation detection, and enforcement using highly accurate space occupancy detection, unique vehicle identification and guidance displays is described. The system enables reduced time to find parking, congestion mitigation, accurate violation detection, and easier enforcement, and increased payment and enforcement revenues to cities. A system facilitating intersection management is also described having applicability to road intersections and railway crossings.

Abstract: A road traffic control system is applied to an intersection to control traffic and includes a light support, three traffic lights, a speed measuring device, a light controller, and an alarm. The light support is installed at one lane at the intersection; the three traffic lights are installed on the light support to control traffic. The speed measuring device is installed on guardrails on the lane to measure current speed of vehicle. When one of the traffic lights changes its color to indicate stopping, the light controller synchronously controls the speed measuring device to detect the current speed of the vehicle that is passing through the speed measuring device, and compares the measured speed of the vehicle with a preset speed limit. The alarm outputs warning signals when the measured speed is above the preset speed limit.

Abstract: Identifying a vehicle in a toll system includes accessing image data for a first vehicle and obtaining first vehicle identifier data from the accessed image data for the first vehicle. A set of records is accessed. Each record includes first vehicle identifier data for a vehicle. The first vehicle identifier data for the first vehicle is compared with the first vehicle identifier data for vehicles in the set of records. Based on the results of the comparison of the first vehicle identifier data, a set of vehicles is identified from the vehicles having records in the set of records. Second vehicle identifier data is accessed for the first vehicle and is compared to second vehicle identifier data for the set of vehicles in order to identify the first vehicle.

Abstract: A road traffic control system is applied to an intersection to control traffic and includes a light support, three traffic lights, a bracket, a number of indicators and a light controller. The light support is installed at one side of one lane at the intersection; the traffic lights are fixed on the light support and above the lane. The bracket is installed at one side of another lane at the intersection, and a number of stop lines are formed on the lane. The indicators are fixed on the bracket and above the stop lines to control traffic. The light controller controls to synchronously turn on or off the plurality of indicators and the traffic lights, and the indicators emit the same color light as the traffic lights.

Abstract: A transponder communication system and method for communicating with a transponder in an electronic toll collection system. A roadside reader attempts to program the transponder in a normal mode in which a programming signal is transmitted to a first coverage area. If the programming attempt in the normal mode is unsuccessful, the reader attempts to program the transponder in an enhanced mode in which a programming signal is transmitted to a second coverage area. The coverage area is adjusted after the programming attempt in the normal mode by using an adjacent antenna to the antenna used to transmit in the normal mode or by increasing the power of the programming signal to a level that is greater than the level used to transmit the programming signal in the normal mode.

Abstract: A control method for a road toll system using vehicle-based on-board units, recording vehicles, control vehicles, cellular mobile communication networks, and switching servers, comprising: registering a recording vehicle identifier and a mobile communication network cell identifier in the switching server; selecting a cell identifier in a control vehicle and transmitting the same with a control vehicle identifier to the switching server; associating the control vehicle identifier with the recording vehicle identifier for which a cell identifier that is identical to the selected cell identifier is registered; detecting a traffic or toll violation by means of the recording vehicle and transmitting a violation data record to the switching server, determining the assigned control vehicle identifier; transmitting the violation data record to the control vehicle identified by the determined identifier; and processing the violation data record in the control vehicle.

Abstract: Provided is an LED traffic signal which can inhibit snow accretion, ice accretion, frost accretion, freeze of snow, freeze of ice, freeze of frost, and the like promptly without fail and which can obtain satisfactory visibility. The snow-melting LED signal includes: an LED signal light including in order: a lens cover; a heat generating sheet; an LED mask plate; an LED lens module; and a printed board protection cover; and a signal body for housing the LED signal light.

Abstract: Position data received wirelessly from a vehicle enrolled in an inspection waiver program are employed to determine when the enrolled vehicle is approaching an inspection station. After determining that the enrolled vehicle is approaching an inspection station, and if the enrolled vehicle has a valid inspection waiver, a bypass confirmation can selectively be provided to the vehicle operator, authorizing the operator to bypass the inspection station. The task of determining when an enrolled vehicle is approaching the location of an inspection station can be performed using a processor disposed in the vehicle, or at a remote location separate from both the vehicle and the inspection station, or at the inspection station. The inspection stations can be mobile so that their locations are varied to prevent operators from intentionally avoiding an inspection, as may occur with fixed inspection stations.

Abstract: A method and a radio beacon for determining a distance of a vehicle passing a radio beacon of a road toll system, from beacon. The vehicle is equipped with an onboard unit, which emits a signal with a known curve of its frequency over time. The method includes receiving the signal in the radio beacon during passage of the vehicle and recording a curve of its frequency over time in relation to the known frequency curve; detecting a change in the recorded frequency curve exceeding a predetermined threshold value; looking for two far regions in the frequency curve lying before and after the detected change in time and showing a frequency change below a threshold value; scaling the recorded frequency curve in such a manner that the far regions assume predetermined values; and determining the said distance from a gradient of the scaled frequency curve in an inflection point thereof.

Abstract: A method comprises: disposing an on-board unit at a preset relative position with respect to a road-side unit; transmitting a signal by the road-side unit; receiving the signal by the on-board unit and detecting a strength of the received signal; calculating, by the on-board unit, a calculated strength of the received signal according to the detected strength of the received signal; storing the calculated strength of the received signal in a memory accessible by the on-board unit; using the stored calculated strength of the received signal to determine if payment of a toll should be made.

Abstract: A system and method for predicting the location of a vehicle in an electronic toll collection system employing a wide area communication protocol. The vehicle includes a transponder that sends reports regarding the position of the vehicle and the time at which the position was determined. The system includes a vehicle position predictor for estimating the future position of the vehicle within a roadway based on two or more reports of past positions and the times at which they were recorded. Speed data or other data impacting likely future position may also be reported and factored into the estimate. The estimate of future position may be used in connection with triggering enforcement measures, timing a toll transaction, integrating wide area toll communications into a legacy toll transaction system, or for other applications.

Abstract: A vehicle detection unit (VDU) is embedded beneath each of a plurality of parking spaces. Each VDU has a sensor which detects magnetic field fluctuations caused by the arrival and departure of a vehicle in the parking space. The VDU runs a vehicle detection algorithm to distinguish magnetic fluctuations caused by vehicles from “exceptional” magnetic fluctuations from other sources. The VDU also stores parameters which define notifiable vehicle space occupancy events. A processor of the VDU processes the sensor signal to determine occupancy status of the vehicle space, and compare the occupancy status of the vehicle space with the parameters in order to determine whether a notifiable event has occurred, such as a vehicle going into violation of parking restrictions. As necessary, the VDU initiates radio communications with a supervisory device, either a transient portable device such as a Parking Officer's PDA or a fixed radio node mounted within range.

Abstract: A computerized vehicle control system and device for limiting the functionality of a mobile asset (e.g., vehicle) capable of performing a plurality of mobile asset functions. The device includes an asset monitor, a mobile wireless transceiver, and a mobile asset processor. The asset monitor is in communication with a first mobile asset for collecting monitored data associated with the first mobile asset. The mobile wireless transceiver is adapted to interface with a management computer. The mobile asset processor is adapted to receive the monitored data from the asset monitor; determine that a first mobile asset function of the plurality of mobile asset functions should be limited; and limit operation of the first mobile asset function. The mobile asset control device can be adapted to override the functionality of the mobile asset, based on the navigation, relative location of the mobile asset, or business rules.

Abstract: An automated gate system (AGS) for processing vehicles entering and exiting a controlled access facility via a single common traffic flow. The AGS provides a single portal receiving both ingress and egress vehicle traffic as a common traffic flow sharing a same access road. The access road feeds a multi-lane gated sub-system having associated kiosks providing an interface for obtaining vehicle and driver related information and which have a combined inbound/outbound gate for controlling ingress and egress movement of vehicles of the common traffic flow in and out from the controlled access facility. A computer system receives signals from the portal and the kiosks representing a status of the vehicles alone or in combination with driver information for controlling gate operation of each of the gates. Thereby, both ingress and egress routes are controlled, and both ingress and egress movement of the vehicles regarding the access facility is controlled.