| CPC B60W 40/08 (2013.01) [A61B 5/18 (2013.01); A61B 5/6802 (2013.01); B60W 50/14 (2013.01); G06N 20/00 (2019.01); G06Q 10/06312 (2013.01); G07C 5/008 (2013.01); G07C 5/0825 (2013.01); B60W 2040/0827 (2013.01); B60W 2040/0872 (2013.01); B60W 2050/146 (2013.01); B60W 2540/221 (2020.02); B60W 2540/229 (2020.02); B60W 2556/45 (2020.02)] | 6 Claims |
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1. A system for monitoring a fatigue level of an operator of a vehicle, the system comprising:
at least one sensor configured to generate a signal indicative of a physiological state of the operator, the signal being defined at least in part by operator-specific data;
a display for the operator; and
one or more controllers configured to:
receive, from the at least one sensor, the signal indicative of the physiological state of the operator;
based at least in part on the operator-specific data, determine the fatigue level of the operator by analyzing the received signal using an algorithm developed using anonymous operator fatigue statistics stored at an operator fatigue statistics database;
based at least in part on the operator-specific data, determine a sleep level of the operator by analyzing the received signal using the algorithm developed using anonymous operator fatigue statistics stored at the operator fatigue statistics database;
generate a real-time fatigue report for the operator based on the determined fatigue level of the operator, wherein the real-time fatigue report includes the determined fatigue level and the determined sleep level of the operator;
transmit the generated real-time fatigue report to (1) the display for the operator for display to the operator, and (2) a display for a dispatcher for the vehicle for display to the dispatcher;
based at least in part on the real-time fatigue report, generate an anonymized fatigue report wherein the anonymized fatigue report includes anonymous fatigue level data corresponding to an anonymized version of the determined fatigue level and anonymous sleep level data corresponding to an anonymized version of the determined sleep level, wherein the anonymous fatigue level data is not associated with the operator-specific data of the signal received from the at least one sensor, and wherein an identity of the operator is de-correlated from any associated fatigue data in the anonymized fatigue report;
transmit the anonymized fatigue report to a cloud for access by remote users;
transmit the anonymized fatigue report to the operator fatigue statistics database;
train the machine learning algorithm using the operator fatigue statistics database including the anonymized fatigue report, as the algorithm;
optimize a schedule for the operator to operate the vehicle, using the operator fatigue statistics database;
wherein the anonymized fatigue report is generated after operation of the vehicle is completed by the operator.
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