Abstract: The technology disclosed teaches a method of path planning using a GNSS Forecast, requesting the GNSS Forecast of signal obscuration on behalf of a vehicle travelling in a region, receiving and using the Forecast to plan a path or route that has GNSS signals available over the path or route that satisfy a predetermined criterium. Also taught are GNSS Forecasts and planned paths or routes for a plurality of flying vehicles used by a flight control system, requesting the GNSS Forecast of signal obscuration on behalf of a flying autonomous or automated vehicle travelling in a region, receiving and using the Forecast and to plan a path with GNSS signals available over the path that satisfy predetermined criteria including accommodating real-time changes in flight paths, without leaving space, that satisfies the predetermined criteria. Also taught is certifying performance of GNSS receivers used on a flying vessel.

Abstract: The present disclosure relates to a communication method and system for converging a 5th-Generation (5G) communication system for supporting higher data rates beyond a 4th-Generation (4G) system with a technology for Internet of Things (IoT). The present disclosure may be applied to intelligent services based on the 5G communication technology and the IoT-related technology, such as smart home, smart building, smart city, smart car, connected car, health care, digital education, smart retail, security and safety services. A method performed by a first terminal in a communication system is provided.

Abstract: A user motion apparatus has a track and a motion assembly. A mounting assembly movably mounts the motion assembly to the outer track surface. The mounting assembly has a first track member connected to the motion assembly and a captive arm with a first arm portion connected to the motion assembly. The first track member is movably mounted to the outer track surface and includes a coupling section extending through the outer track surface. The captive arm has a second arm portion extending through the outer track surface to an engagement height. The second arm portion is configured to engage the coupling section at the engagement height. The second arm portion maintains engagement with the coupling section at the engagement height as the first track member moves along the track whereby the first track member and second track member cooperate to maintain the motion assembly on the track.

Abstract: A method for operating an axle counter system for monitoring the occupation status of a track section being limited by counting positions which have at least one detection point and at least one counting position a set of redundant detection points, includes the steps of: (a) incrementing or decrementing axle counter values in dependence of the moving direction of a passing axle; (b) transmitting the axle counter value to an axle counter evaluator; (c) determining the number of remaining axles within the track section; and (d) outputting a track occupation status. Prior to step (c) for each counting position exactly one detection point is selected for further processing independent of the selection at any other counting position. In step (c) the counter values of the selected detection points are used for determining the number of remaining axles and the counter values of the non-selected redundant detection points are ignored.

Abstract: In an example implementation, an autonomous vehicle is configured to detect closures and lane shifts in a lane of travel. The vehicle is configured to operate in an autonomous mode and determine a presence of an obstacle substantially positioned in a lane of travel of the vehicle using a sensor. The lane of travel has a first side, a second side, and a center, and the obstacle is substantially positioned on the first side. The autonomous vehicle includes a computer system. The computer system determines a lateral distance between the obstacle and the center, compares the lateral distance to a pre-determined threshold, and provides instructions to control the autonomous vehicle based on the comparison.

Abstract: A system for automatic and guided transport of people, the system including: at least one running track having guide members for guiding transport modules; an electric power supply system comprising a sequence of power supply blocks; electric self-propelled transport modules travelling individually along the running track and fitted with a collector for picking up electric power supplied by the power supply blocks; and an electric power supply distributor controlled by a central control unit managing the progress of the transport modules by powering or unpowering various power supply blocks.

Abstract: The present invention provides methods for preventing low train voltages and managing interference, thereby improving the efficiency, reliability, and passenger comfort associated with commuter trains. An algorithm implementing neural network technology is used to predict low voltages before they occur. Once voltages are predicted, then multiple trains can be controlled to prevent low voltage events. Further, algorithms for managing inference are presented in the present invention. Different types of interference problems are addressed in the present invention such as “Interference During Acceleration”, “Interference Near Station Stops”, and “Interference During Delay Recovery.” Managing such interference avoids unnecessary brake/acceleration cycles during acceleration, immediately before station stops, and after substantial delays. Algorithms are demonstrated to avoid oscillatory brake/acceleration cycles due to interference and to smooth the trajectories of closely following trains.

Abstract: The invention provides a method for independent axle control of a variable force damper system by providing at least one axle velocity signal from at least one vehicle sensor. The method then applies an axle control algorithm to the at least one axle velocity signal, thus determining at least one axle damping command as a function of the axle control algorithm.

Abstract: An object of the present invention is to improve the transportation efficiency of an automatic transport system for transporting an article. In order to attain the above object, the automatic transport system of the present invention comprises a front detecting device which detects an obstruction in a non-contact state in an area through which an automatic transport vehicle passes and a projection surface of said automatic transport vehicle, and when said front detecting device detects the obstruction in said area, the running speed of said automatic transport vehicle is reduced or said automatic transport vehicle is stopped.

Abstract: A system is provided that uses small carrier vehicles that operate along electrified guide ways and use standardized connections to automatically carry passenger cabins, freight loads and automobile platforms to desired destinations. The connections are made to upper ends of posts that extend from front and rear portions of each carrier vehicle and up through a narrow centrally located slot in the guide way. The guide way provides a protected environment for error-free data transmissions made through closely spaced inductive couplings between monitoring and control circuits along the guide way and control circuits of the carrier vehicles. Control circuitry is provided to obtain highly reliable control of vehicle speed and of starting, stopping and merge operations. Automobiles are securely held on platforms which are so handled as to permit rapid loading and unloading operations.

Abstract: A powered pallet assembly (10) for use on two intersecting trackways (11 and 13). The pallet assembly (10) includes: a pallet frame (23) having an upwardly facing surface (12) formed for support of a load thereon; a first plurality of load-supporting wheels (16a, 16b) rotatably mounted to frame (23) for movement of pallet assembly (10) in a first direction on the first trackway (11); a second plurality of load-supporting wheels (18a, 18b) rotatably mounted to frame (23) for movement of pallet assembly (10) in a second direction intersecting the first direction on the second trackway (13) intersecting the first trackway (11); a power drive assembly carried by pallet frame (23) and coupled to drive at least one wheel of first wheels (16a, 16b) and coupled to drive at least one wheel of second wheels (18a, 18b).

Abstract: A control device for conveyor systems in an industrial area has a drive motor in each overhead conveyor, a drive control, and an associated sensor consisting of a transmitter aimed at the leading overhead conveyor and a receiver for the signal reflected by this overhead conveyor. The transmitter is configured to transmit a detection signal not only straight ahead, but also diagonally leftward and rightward ahead. The reflector is designed with a three dimensional reflecting surface contour, so that even with diagonal aiming toward the following overhead conveyor, the signal emitted from its transmitter is reflected at its receiver.

Abstract: A system is provided that uses small carrier vehicles that operate along electrified guideways and use standardized connections to automatically carry passenger cabins, freight loads and automobile platforms to desired destinations. Front and rear bogies of the vehicles pivot about front and rear vertical turn axes and carry direction control wheels that cooperate with guide ribs along tracks for selective control of movement to either of two exits from a Y junction. Electric power can be supplied through upper and lower track structures which can be of laminated construction. The guideway provides a protected environment for error-free data transmissions made through closely spaced inductive couplings between monitoring and control circuits along the guideway and control circuits of the carrier vehicles. Control circuitry is provided to obtain highly reliable control of vehicle speed and of starting, stopping and merge operations.

Abstract: A system is provided that uses small carrier vehicles that operate along electrified guideways and use standardized connections to automatically carry passenger cabins, freight loads and automobile platforms to desired destinations. The connections may include electrical connections for power and communication and they are made to upper ends of posts that extend from front and rear portions of each carrier vehicle and up through a narrow centrally located slot in the guideway. Transfer vehicles operate to transfer loads between the carrier vehicles and storage positions and may be controlled to move in either of two transverse directions or to rotate in a turntable operation. Control circuitry is provided to obtain highly reliable control of vehicle speed and of starting, stopping and merge operations.

Abstract: A system is provided that uses small carrier vehicles that operate along electrified guideways and use standardized connections to automatically carry passenger cabins, freight loads and automobile platforms to desired destinations. Front and rear bogies of the vehicles pivot about front and rear vertical turn axes and carry direction control wheels that cooperate with guide ribs along tracks for selective control of movement to either of two exits from a Y junction. The guideway provides a protected environment for error-free data transmissions made through closely spaced inductive couplings between monitoring and control circuits along the guideway and control circuits of the carrier vehicles. Control circuitry is provided to obtain highly reliable control of vehicle speed and of starting, stopping and merge operations.

Abstract: A system is provided that uses small carrier vehicles that operate along electrified guideways and use standardized connections to automatically carry passenger cabins, freight loads and automobile platforms to desired destinations. The connections are made to upper ends of posts that extend from front and rear portions of each carrier vehicle and up through a narrow centrally located slot in the guideway. The guideway provides a protected environment for error-free data transmissions made through closely spaced inductive couplings between monitoring and control circuits along the guideway and control circuits of the carrier vehicles. Control circuitry is provided to obtain highly reliable control of vehicle speed and of starting, stopping and merge operations.

Abstract: A system and method for movement of self-propelled vehicles in-line along a rail under external control is intended to ensure safe spacing between vehicles to avoid collisions. Each vehicle is driven by its own variable speed motor. The speed of the vehicles is controlled by a stationary cam extending beside the rail. The edge of the cam rises and falls in a predetermined manner and is sensed by a cam follower on each vehicle. The cam follower is coupled to a transducer which produces a control signal for varying the vehicle speed in response to the rise or fall of the cam edge. Each vehicle pulls along a tail which extends behind the vehicle and is guided for motion alongside the edge of the cam.

Abstract: A conveyor comprising a plurality of self-propelled carriers with each carrier having a distance sensor for stepwise detecting the distance between each carrier and a preceding carrier, and a device for controlling the speed of each carrier to maintain the distance within a predetermined range.

Abstract: A material handling system, such as a monorail material handling system, and a delivery device therefor which is intelligent, self-powered and capable of communicating with a central system control via a radio frequency communication link without direct electrical connection therewith. The material handling system comprises at least one delivery device, a pathway along which the delivery device is adapted to be propelled, and a central electronic control for controlling operation of the system. Each delivery device includes a drive for propelling the delivery device along the pathway, an onboard power supply for providing power to the drive, and an onboard electronic control for controlling operation of the delivery device. The onboard electronic control and the central electronic control include radio frequency communications for providing a radio communication link therebetween.

Abstract: The invention is a conveyor control system having self-propelled vehicles having wheels, each driven by a motor (14) to move along rails. The system includes power rails (18) for supplying power to the vehicle (12) and at least one command rail (20, 21) which transmits a constant command signal indicative of requested speed. The command rail (20) is comprised of isolated sections of rail for carrying different command signals along each isolated section to enable the vehicle (12) to travel at different speeds dependent on which section of rail the vehicle is within. The command signal may be in the form of an analog signal on one rail (20) or a digital signal on two rails (20, 21). Each vehicle (12) includes a control circuit (22) which interprets the command signal to drive the vehicle (12) at the requested speed. An override circuit (28, FIG. 2b, FIGS. 3 and 4) senses external activity for proper control of the circuit.

Abstract: A conveyor system (10) is disclosed comprised of a plurality of vehicles (12), propelled about a guide track (14) by a D.C. motor (54) and battery (52), featuring an on-board control (40) in which signals from fore and aft and side mounted photosensors (32,34,36,38) are processed by a microprocessor (42), to generate control signals for pulse width modulated control of the power to the D.C. motor (54). The control signals are applied to a motor driver circuit (50), including an H-bridge of MOSFET switching components (Q1,Q2 A ramping or progressive variation of the power applied to the motor (54) is carried out to provide gradual acceleration or deceleration, and the fore and aft photo-detectors (32,34) are triggered by the approach of another vehicle (12) at a substantial distance, to accommodate the distance required for gradual deceleration when the vehicles (12) are being queued at points along the track (14).

Abstract: A proximity switching system comrising a plurality of self-propelled vehicles mounted in tandem on a track and carrying magnetic proximity switches for controlling the vehicle propulsion. Each vehicle has a first magnet mounted on the front end at a first position, a second magnet mounted on the back end at a second position, a first magnetic reed switch mounted on the front end at a position congruent with the second position on the back end, and a second magnetic reed switch mounted on the back end at a position congruent with the first position on the front end. A pair of electric rails are mounted next to the track. Each vehicle includes contacts for receiving voltages on the rails. A DC motor drives the vehicles on the track in one of two directions dependent on the polarity of the voltages, and for not driving the vehicles in response to the closure of the first switch when the voltage has one polarity and in response to the closure of the second switch when the voltage has an opposite polarity.

Abstract: A portable amusement ride incorporates a multi-functional trailer which can serve for hauling the amusement ride, when disassembled, and serve as an elevated track portion of the ride, when assembled. Electrically powered vehicles are guided and powered over an electrified track having a main enclosed path, and an alternate loading area for discharge and pick up of passengers. Automatic launch and vehicle exit features between the main path and loading area prevent vehicle collisions, with minimum requisite operator activity. A pick-up assembly carried on the vehicle both guides and electrically powers the vehicle as it moves over the track. The track has an electrified pair of members also forming a guidance channel in which the pick-up assembly from the vehicle is received. The configuration of the pick-up assembly and its interaction with the electrified guidance channel causes proper electrical pick-up substantially regardless of the terrain formed by the track over which the vehicle travels.

Abstract: A suspended monorail track system has a box-shaped cross section with flanges extending inward and upward from the bottom edges of the side walls to form an acute angle between each flange and its attached side wall. An opening remains between the flanges extending along the bottom of the track. An intermediate horizontal wall may be added below the top wall to form an enclosed channel for power and signal cables within the track. A number of power and signal conductors extend along the interior surfaces of the track to provide electrical contact with vehicles moving along the track. Signal conductors are used to prevent collision between vehicles. Each vehicle is suspended from the track by a bogie assembly extending through the opening along the bottom of the track. The bogie assembly is supported by load-bearing wheels riding on the upper surfaces of the flanges, and stabilized by a second set of wheels rolling along the bottom surfaces of the flanges.

Abstract: A system for propelling individual carriages along an endless path from a first speed abutted in a stack in a carriage collection section, to a second speed spaced apart in an operational section, and to a third speed in a stack-forming section where the carriages return to the first speed in the stack. Novel carriages are propelled by a linear motor wherein each carriage has attached a synchronous and a hysteresis secondary. A first primary positioned adjacent one part of the path develops electromagnetic waves for engaging the synchronous secondaries to provide controlled spacing of the carriages, and a second primary adjacent another part of the path develops other electromagnetic waves for engaging the hysteresis secondaries to provide controlled abutting of the carriages.

Abstract: A railway system including a track and a train adapted to run on the track. A power feed line comprising a series of feed sections is provided to extend along the track. A plurality of stations are provided along the track and the station has a power supply unit adapted to be selectively connected with one of the feed sections to supply a controlled three-phase AC power to the feed section to thereby operate the train on that feed section in a desired mode. The train has a pair of collecting shoes which are connected with the tracting motor in parallel with each other and arranged with a space in a longitudinal direction of the train. In the station, there is an insulated junction between the two adjacent feed sections which is located so that it is between the two collecting shoes on the train which is stopped in the station at a predetermined position.

Abstract: A device for indicating a certain proximity between movable units emitting to the units a synchronizing signal with a very high transmission speed. A transmitter device is situated at least on certain of the units. The transmitter device is activated by the synchronizing pulse to emit an information signal in the form of a wave propagation movement in the medium in which the units are located. The wave propagation movement has in comparison with the synchronizing signal a considerably lower transmission speed. In at least certain others of the units the information signal is received by and related to the difference in time between the synchronizing signal and the received information signal to a predetermined time value corresponding to a certain proximity between the units. Thereafter the difference in time is evaluated in relation to the predetermined time value.

Abstract: Disclosed is an aerial transport system which comprises an aerial track having therealong a pair of electric current-carrying cables in a parallel relationship with respect to one another and with respect to the track, and self-propelled carriages. Each carriage has an electric current collector to collect electric power from the current-carrying cables and to supply the power to an electrical driving mechanism mounted thereon for driving wheels engaging with the track. The current-carrying cables are separated at longitudinal given intervals so as to define respectively independent electric power supply zones. The transport system further includes a system for controlling electric power supply for the vehicle or carriage including a mechanism for detecting a vehicle or carriage position in the track provided in each power supply zone.

Abstract: A transportation system comprising a plurality of driven vehicles movable along a track and controlled by the provision of deterministic cells, defined by track-to-vehicle speed and/or position command signals, which move along the track, each vehicle being confined within the limits of a cell but being capable of autonomous movement relative thereto to permit the formation of a contact train with other vehicles within the cell. A control is provided to close-up vehicles within a cell, and there may also be provided on board each vehicle three coordinated closed-loop subsystems, governing respectively the vehicle speed, position and closing speed relative to an adjacent vehicle.

Abstract: A guidance system for guiding a plurality of unmanned vehicles along a traffic layout includes a plurality of code devices which divide the traffic layout into a plurality of zones and identify each zone by a unique identifying code. Each vehicle includes control circuits having code sensors which sense the identifying code as the vehicle enters a zone and provide data to a present memory which stores present address data representing the identity of the zone in which the vehicle is now traveling. A past memory, which receives data from the present memory, stores past address data representing the identity of the zone in which the vehicle was previously traveling. The control circuits further include a time slot generator which provides timing signals defining a plurality of time slots each of which is assigned to a different zone.