Abstract: A method of operating a gateline includes obtaining, at a computing device, information indicative of one or both of a current or predicted amount of throughput of transit users through the gateline and calculating, based at least in part of the information, a desired configuration of one or more fare gates in the gateline. The desired configuration is compared to a current gateline configuration. A command is sent to the gateline to adjust the current gateline configuration to match the desired configuration based on a determination that the desired configuration is different than the current gateline configuration.

Abstract: A method of operating a gateline includes obtaining, at a computing device, information indicative of one or both of a current or predicted amount of throughput of transit users through the gateline and calculating, based at least in part of the information, a desired configuration of one or more fare gates in the gateline. The desired configuration is compared to a current gateline configuration. A command is sent to the gateline to adjust the current gateline configuration to match the desired configuration based on a determination that the desired configuration is different than the current gateline configuration.

Abstract: Systems and methods for restricting electronic devices to maximum hardware settings within a transit vehicle. A method may include receiving positioning data for each of a plurality of portable electronic devices. The method may also include determining a location of each of the plurality of portable electronic devices within the transit vehicle based on the positioning data. The method may further include establishing at least one zone within the transit vehicle, assigning one or more maximum hardware settings to each of the at least one zone, and ensuring compliance of each of the plurality of portable electronic devices with the one or more maximum hardware settings based on the location of each of the plurality of portable electronic devices. The method may include transmitting, by a plurality of position sensors located throughout the transit vehicle, wireless beacon signals each indicating a transmitting position sensor of the plurality of position sensors.

Abstract: A wearable electronic device comprising an electroencephalography (EEG) sensor for enabling access to a transit system. The device may also include a device transmitter configured to wirelessly transmit a request signal to a gate receiver. The device may further include a device processor configured to receive an EEG signal from the EEG sensor, analyze the EEG signal to determine that the transit user is attempting to enter the transit system through a particular gate, generate the request signal identifying the transit user and indicating that the transit user is attempting to enter the transit system through the particular gate, and wirelessly transmit, using the device transmitter, the request signal to the gate receiver. The EEG signal may be based at least in part on the transit user viewing a visual stimuli displayed by the particular gate.

Abstract: A wearable electronic device comprising an electroencephalography (EEG) sensor for enabling access to a transit system. The device may also include a device transmitter configured to wirelessly transmit request signals to a transit gate. The device may further include a device processor configured to receive a first EEG signal from the EEG sensor and analyze the first EEG signal to determine that the transit user is attempting to enter the transit system through a particular transit gate. The device processor may also receive a second EEG signal and analyze the second EEG signal to determine that the transit user is currently passing through the particular gate. The first EEG signal may be based on the transit user viewing a visual stimulus displayed by the transit gate, and the second EEG signal may be based on the transit user hearing an auditory stimulus outputted by the transit gate.

Abstract: A wearable electronic device comprising an electroencephalography (EEG) sensor for enabling access to a transit system. The device may also include a device transmitter configured to wirelessly transmit request signals to a transit gate. The device may further include a device processor configured to receive a first EEG signal from the EEG sensor and analyze the first EEG signal to determine that the transit user is attempting to enter the transit system through a particular transit gate. The device processor may also receive a second EEG signal and analyze the second EEG signal to determine that the transit user is currently passing through the particular gate. The first EEG signal may be based on the transit user viewing a visual stimulus displayed by the transit gate, and the second EEG signal may be based on the transit user hearing an auditory stimulus outputted by the transit gate.

Abstract: Systems and methods for restricting electronic devices to maximum hardware settings within a transit vehicle. A method may include receiving positioning data for each of a plurality of portable electronic devices. The method may also include determining a location of each of the plurality of portable electronic devices within the transit vehicle based on the positioning data. The method may further include establishing at least one zone within the transit vehicle, assigning one or more maximum hardware settings to each of the at least one zone, and ensuring compliance of each of the plurality of portable electronic devices with the one or more maximum hardware settings based on the location of each of the plurality of portable electronic devices. The method may include transmitting, by a plurality of position sensors located throughout the transit vehicle, wireless beacon signals each indicating a transmitting position sensor of the plurality of position sensors.

Abstract: A wearable electronic device comprising an electroencephalography (EEG) sensor for enabling access to a transit system. The device may also include a device transmitter configured to wirelessly transmit a request signal to a gate receiver. The device may further include a device processor configured to receive an EEG signal from the EEG sensor, analyze the EEG signal to determine that the transit user is attempting to enter the transit system through a particular gate, generate the request signal identifying the transit user and indicating that the transit user is attempting to enter the transit system through the particular gate, and wirelessly transmit, using the device transmitter, the request signal to the gate receiver. The EEG signal may be based at least in part on the transit user viewing a visual stimuli displayed by the particular gate.