Abstract: A message that contains train on-track information and reservation information of a train detection section and direction information and reservation information of a switch is circulated among a train detector, switch machine, signal device controller and a route indicating device. Via a signaling message, the train detector transmits the train detection result to the signal device controller and the route indicating device, the switch machine can transmit switch condition to the signal device controller, the route indicating device transmits route reservation to the switch machine and the signal device controller. Based on the transmitted train detection result, switch condition and route reservation condition, the signal device controller transmits travel permission or travel non-permission for the assigned route to a train.

Abstract: A vital proximity detection mechanism and method for reliably determining and communicating the position of a railroad switch point relative to a normal fixed track and a reverse fixed track, wherein the mechanism includes substantial component redundancy and fault-checking features and otherwise meets promulgated safety standards for vital componentry. The mechanism includes an RF transmitter and remote status indicator unit to allow for remote adjustments of proximity sensors while monitoring the effects of such adjustments.

Abstract: In the state that a train moves from a track circuit 3T toward a track circuit 5T, and a train detection signal TD1 is supplied from the boundary between the track circuits 3T and 5T to the track circuits 3T and 5T, and the train detection signal TD1 is received by the train, if the signal intensity is suddenly reduced greatly immediately after the axle of the train passes the boundary between the track circuits 3T and 5T, it can be decided that the train passes the boundary between the track circuits 3T and 5T. Therefore, if absolute position information of the track circuit 5T is preserved beforehand in the train, the movement distance calculated from pulse output of a speed generator is corrected (replaced) in the absolute position information of the track circuit 5T, and hereafter is updated by the pulse output, thus the position of the own train can be easily detected as a movement distance.

Abstract: Each train detects its location, velocity, and the time it will spend to pass the next bifurcation, joint, and intersection, respectively, and sends the information periodically to the trains that are or will be behind the train. The controller of each bifurcation, joint, and intersection, respectively, having mechanical movement sends the connection status of the track to the trains about to pass it. Then, receiving a message, a train can determine if it may hit its front train if its front train stops abruptly and if it may pass the bifurcation, the joint, and the intersection, respectively, before the track there has been connected for it. If yes, the train decelerates to stop to avoid possible disasters. So that the distance between every two consecutive trains can be minimized and different kinds of trains may share the same railroad. Hence, some railroads may be saved.

Abstract: The invention relates to an improved block control for controlling a train safely and efficiently along a railway system. The apparatus includes a mechanism for designating a train route, a mechanism for assigning a feeder section along the designated train route to a desired substation, a mechanism for locking an assigned feeder section to a desired substation and for preventing unlocking of that assignment until predetermined conditions are met, a mechanism for designating a traveling direction of the train along the assigned feeder section, and a mechanism for controlling operation of the train along a designated control route. The invention also relates to a mechanism for enlarging a control route, a mechanism for unlocking the assigned feeder sections and substations, a mechanism for checking a determined control route, a mechanism for changing the borders of a feeder section, and a mechanism for selectively communicating received data to the correct substation to facilitate control of the train.

Abstract: Reversal of the established traffic direction is initiated by a request for an entering train movement at the existing exit end of the single track stretch. This deenergizes the adjacent traffic line circuit section in the new direction. Line circuit deenergization cascades section by section through the stretch to the other end. At each location, the active traffic direction register relay is deenergized but the magnetic stick traffic relay holds in its established traffic position. At the new exit end, reception of the deenergization signal reverses positions of the traffic and direction register relays if the new approach track circuit is clear. This initiates the transmission of line circuit energy in the opposite direction. At each intermediate location, reception of this opposite direction line energy energizes the other direction register relay if the approach track circuit is clear.

Abstract: Adjacent stations along a single track railroad without continuous train detection, are coupled by a communication channel over which distinctive signals requesting, acknowledging, accepting, and confirming completion of, train movements are transmitted. The operator at the departure station manually initiates the transmission of a first signal requesting a train movement to the adjacent station. The other station operator acknowledges the movement request by manually actuating the transmission of a second distinct signal accepting the move. The two signals jointly establish the requested traffic direction through the single track and clear the departure signal for the train. Occupancy of the single track by the train locks the channel to inhibit other movement requests, thus protecting the train while moving through the non-detection stretch. Arrival of the train at the far station is registered and confirmed by the operator who manually actuates the transmission of a train complete third signal.