This article presents the design of a platform capable of recording the physiological and biometric data of users in an autonomous vehicle. This includes biometric wearable and noninvasive devices used to acquire physiological data, while vehicle-orientated data is obtained from integrated and programmable sensors in the vehicle that output variables related to the driving cycle. In addition, it integrates the use of hardware and software components to conclude with raw data files that can be analyzed in further work. Several tests were performed using the autonomous vehicle NEV Polaris Gem e6 with manual and autonomous driving modalities to acquire data of the users, for which the data was successfully stored. This work presents a method for the analysis of peripheral physiological data of the user during a route made by a vehicle.

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Design of a Physiological and Vehicle-Oriented Data Acquisition Platform for Autonomous Vehicle Users

  • Rebeca Mellado-Reyes,
  • Jesús A. Mandujano-Granillo,
  • Alejandro Arceo,
  • Luis C. Félix-Herrán,
  • Mauricio A. Ramírez-Moreno,
  • Juan C. Tudón-Martínez,
  • Jorge De-J. Lozoya-Santos

摘要

This article presents the design of a platform capable of recording the physiological and biometric data of users in an autonomous vehicle. This includes biometric wearable and noninvasive devices used to acquire physiological data, while vehicle-orientated data is obtained from integrated and programmable sensors in the vehicle that output variables related to the driving cycle. In addition, it integrates the use of hardware and software components to conclude with raw data files that can be analyzed in further work. Several tests were performed using the autonomous vehicle NEV Polaris Gem e6 with manual and autonomous driving modalities to acquire data of the users, for which the data was successfully stored. This work presents a method for the analysis of peripheral physiological data of the user during a route made by a vehicle.