Hitachi Breath-Alcohol Detection Device with Facial Recognition

Hitachi has developed a prototype system for a new breath-alcohol detection device equipped with facial recognition, and verification field tests with (Hitachi Capital Auto Lease.)

Hitachi has been pursuing research to increase the reliability of the sensor, reduce its size, and develop application software.

In March 2017, a field test was launched with a prototype equipped with a function to collect and manage drivers’ alcohol test data on smartphones.

From August 2017, a new detection device which recognizes whether or not the person who underwent the alcohol test is the same person as the driver is expected to be introduced to prevent abuse by substitution (see below).

Hitachi Schematic of the new breath-alcohol detection device
Schematic of the new breath-alcohol detection device

Through the field tests involving employees at three sales offices of Hitachi Capital Auto Lease, the functionality and performance of the device will be verified as well clarifying other potential issues to enhance the reliability and usability in preparing for commercialization.

In March 2016, Hitachi and Honda R&D Co., Ltd. developed a prototype portable breath-based alcohol detection device with the aim of eliminating alcohol-related accidents.

Hitachi prototype of portable breath-based alcohol detection device (2016)
Hitachi early prototype of portable breath-based alcohol detection device (2016)

While this prototype provided the convenience of allowing the test to be taken anywhere, and prevented tampering by being able to distinguish whether or not the sample submitted was human breath, issues were identified such as:

  • The possibility of abuse by a substitute taking the test in place of the actual driver, and
  • The need to be able to centrally manage test data from each driver in fleet situations

To address these issues, Hitachi developed a function to prevent the use of substitutes as well as enabling central management of alcohol test data, etc., and is carrying out field tests in collaboration with Hitachi Capital Auto Lease to verify the practicality of the new breath-alcohol detection device.

Features of the functions developed are as follows:

1. Facial recognition to prevent substitution

Hitachi new breath-alcohol detection device
Hitachi new breath-alcohol detection device
  • The size of the new prototype detection device was reduced to about one-third that of the previous prototype by eliminating the battery and related circuits, while maintaining the same accuracy for alcohol detection.
  • This made it possible to attach the prototype to a smartphone.
  • Application software developed linked the two, enabling facial recognition technology to be employed.
  • Users attach the detection device to their smartphones, and then initiate the software to take the alcohol breath test during which time a facial image is simultaneously captured.
  • After taking the test, the smartphone is placed in a holder located in front of the driver’s seat and another photograph of the driver is captured.
  • The image of the person who took the test is then matched with that of the driver to confirm identity thus preventing substitutes from taking the alcohol breath tests.

2. Management of breath-based alcohol test data

  • Application software was developed to transmit the breath-based alcohol test results from the detection devices to smartphones and aggregate the data.
  • Safety administrators can download the log data related to aggregated time of test, presence or absence of alcohol, mobile terminal ID, etc. to a smartphone or PC, thus raising management efficiency and enabling remote management of alcohol inspection.
  • Through the field tests, Hitachi and Hitachi Capital Auto Lease are working to enhance the reliability and usability of the breath-alcohol detection system, with the aim of commercialization.

Through collaborative creation, Hitachi is providing solutions to customers in a broad range of sectors, including Power, Energy, Industry, Distribution, Water, Urban Development, Finance, Government/Public and Healthcare.