Modular Prototype of Artificial Vision for the Detection of Fatigue and Anti-drowsiness in Drivers of Land Vehicles

Laura Guerra; Dulce Rivero; Santiago Quishpe; José Luis Ibarra; Edwin Cacuango

doi:10.1007/978-981-97-1552-7_29

Modular Prototype of Artificial Vision for the Detection of Fatigue and Anti-drowsiness in Drivers of Land Vehicles

Laura Guerra^*, Dulce Rivero, Santiago Quishpe, José Luis Ibarra, Edwin Cacuango

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

The purpose of this work was to build an artificial vision device that helps safeguard people’s lives from traffic accidents related to fatigue and anti-drowsiness, through an alarm that makes the driver react in time. This is an applied research with a quantitative approach. The iterative methodology was used as the basis of the research; in the first iteration, information was collected to define the requirements and associated risks. Subsequently, the system was built in four iterations, the first consisted of image acquisition and detection, the second the database was built in SQLite and the model was trained, the third consisted of sending alert messages, through the 4g module, and the fourth, referring to the activation of the different audible and visual peripherals to obtain the driver’s reaction. The Cascade Trainer GUI platform was used. Additionally, the model was trained with the same tool. Python was used for the face and eye detection programs, as well as the playsound library for the messages. The electronic design includes high-power LED lights, amplifier circuit for LED lights, GPRS or GSM module, Raspi (infrared camera), Raspberry PI 3B, speakers, power supplies. The design of the electronic detection was carried out in PCB Wizard and the design of the casing was developed in Freecad. The system was validated using the confusion matrix, from which indicators of accuracy, precision, specificity, and score above 90% were obtained, with which a device could be presented whose detection speed was determined in 1.2 s.

Original language	English
Title of host publication	Marketing and Smart Technologies - Proceedings of ICMarkTech 2023
Editors	José Luís Reis, José Paulo Marques dos Santos, Jiří Zelený, Beáta Gavurová
Publisher	Springer Science and Business Media Deutschland GmbH
Pages	433-446
Number of pages	14
ISBN (Print)	9789819715510
DOIs	https://doi.org/10.1007/978-981-97-1552-7_29
State	Published - 2024
Event	International Conference on Marketing and Technologies, ICMarkTech 2023 - Prague, Czech Republic Duration: 30 Nov 2023 → 2 Dec 2023

Publication series

Name	Smart Innovation, Systems and Technologies
Volume	386
ISSN (Print)	2190-3018
ISSN (Electronic)	2190-3026

Conference

Conference	International Conference on Marketing and Technologies, ICMarkTech 2023
Country/Territory	Czech Republic
City	Prague
Period	30/11/23 → 2/12/23

Bibliographical note

Publisher Copyright:
© The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd. 2024.

Keywords

Classification algorithms
Computer vision
Raspberry

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1007/978-981-97-1552-7_29

Cite this

Guerra, L., Rivero, D., Quishpe, S., Ibarra, J. L., & Cacuango, E. (2024). Modular Prototype of Artificial Vision for the Detection of Fatigue and Anti-drowsiness in Drivers of Land Vehicles. In J. L. Reis, J. P. M. D. Santos, J. Zelený, & B. Gavurová (Eds.), Marketing and Smart Technologies - Proceedings of ICMarkTech 2023 (pp. 433-446). (Smart Innovation, Systems and Technologies; Vol. 386). Springer Science and Business Media Deutschland GmbH. https://doi.org/10.1007/978-981-97-1552-7_29

Guerra, Laura ; Rivero, Dulce ; Quishpe, Santiago et al. / Modular Prototype of Artificial Vision for the Detection of Fatigue and Anti-drowsiness in Drivers of Land Vehicles. Marketing and Smart Technologies - Proceedings of ICMarkTech 2023. editor / José Luís Reis ; José Paulo Marques dos Santos ; Jiří Zelený ; Beáta Gavurová. Springer Science and Business Media Deutschland GmbH, 2024. pp. 433-446 (Smart Innovation, Systems and Technologies).

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title = "Modular Prototype of Artificial Vision for the Detection of Fatigue and Anti-drowsiness in Drivers of Land Vehicles",

abstract = "The purpose of this work was to build an artificial vision device that helps safeguard people{\textquoteright}s lives from traffic accidents related to fatigue and anti-drowsiness, through an alarm that makes the driver react in time. This is an applied research with a quantitative approach. The iterative methodology was used as the basis of the research; in the first iteration, information was collected to define the requirements and associated risks. Subsequently, the system was built in four iterations, the first consisted of image acquisition and detection, the second the database was built in SQLite and the model was trained, the third consisted of sending alert messages, through the 4g module, and the fourth, referring to the activation of the different audible and visual peripherals to obtain the driver{\textquoteright}s reaction. The Cascade Trainer GUI platform was used. Additionally, the model was trained with the same tool. Python was used for the face and eye detection programs, as well as the playsound library for the messages. The electronic design includes high-power LED lights, amplifier circuit for LED lights, GPRS or GSM module, Raspi (infrared camera), Raspberry PI 3B, speakers, power supplies. The design of the electronic detection was carried out in PCB Wizard and the design of the casing was developed in Freecad. The system was validated using the confusion matrix, from which indicators of accuracy, precision, specificity, and score above 90% were obtained, with which a device could be presented whose detection speed was determined in 1.2 s.",

keywords = "Classification algorithms, Computer vision, Raspberry",

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Guerra, L, Rivero, D, Quishpe, S, Ibarra, JL & Cacuango, E 2024, Modular Prototype of Artificial Vision for the Detection of Fatigue and Anti-drowsiness in Drivers of Land Vehicles. in JL Reis, JPMD Santos, J Zelený & B Gavurová (eds), Marketing and Smart Technologies - Proceedings of ICMarkTech 2023. Smart Innovation, Systems and Technologies, vol. 386, Springer Science and Business Media Deutschland GmbH, pp. 433-446, International Conference on Marketing and Technologies, ICMarkTech 2023, Prague, Czech Republic, 30/11/23. https://doi.org/10.1007/978-981-97-1552-7_29

Modular Prototype of Artificial Vision for the Detection of Fatigue and Anti-drowsiness in Drivers of Land Vehicles. / Guerra, Laura; Rivero, Dulce; Quishpe, Santiago et al.
Marketing and Smart Technologies - Proceedings of ICMarkTech 2023. ed. / José Luís Reis; José Paulo Marques dos Santos; Jiří Zelený; Beáta Gavurová. Springer Science and Business Media Deutschland GmbH, 2024. p. 433-446 (Smart Innovation, Systems and Technologies; Vol. 386).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Modular Prototype of Artificial Vision for the Detection of Fatigue and Anti-drowsiness in Drivers of Land Vehicles

AU - Guerra, Laura

AU - Rivero, Dulce

AU - Quishpe, Santiago

AU - Ibarra, José Luis

AU - Cacuango, Edwin

N1 - Publisher Copyright: © The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd. 2024.

PY - 2024

Y1 - 2024

N2 - The purpose of this work was to build an artificial vision device that helps safeguard people’s lives from traffic accidents related to fatigue and anti-drowsiness, through an alarm that makes the driver react in time. This is an applied research with a quantitative approach. The iterative methodology was used as the basis of the research; in the first iteration, information was collected to define the requirements and associated risks. Subsequently, the system was built in four iterations, the first consisted of image acquisition and detection, the second the database was built in SQLite and the model was trained, the third consisted of sending alert messages, through the 4g module, and the fourth, referring to the activation of the different audible and visual peripherals to obtain the driver’s reaction. The Cascade Trainer GUI platform was used. Additionally, the model was trained with the same tool. Python was used for the face and eye detection programs, as well as the playsound library for the messages. The electronic design includes high-power LED lights, amplifier circuit for LED lights, GPRS or GSM module, Raspi (infrared camera), Raspberry PI 3B, speakers, power supplies. The design of the electronic detection was carried out in PCB Wizard and the design of the casing was developed in Freecad. The system was validated using the confusion matrix, from which indicators of accuracy, precision, specificity, and score above 90% were obtained, with which a device could be presented whose detection speed was determined in 1.2 s.

AB - The purpose of this work was to build an artificial vision device that helps safeguard people’s lives from traffic accidents related to fatigue and anti-drowsiness, through an alarm that makes the driver react in time. This is an applied research with a quantitative approach. The iterative methodology was used as the basis of the research; in the first iteration, information was collected to define the requirements and associated risks. Subsequently, the system was built in four iterations, the first consisted of image acquisition and detection, the second the database was built in SQLite and the model was trained, the third consisted of sending alert messages, through the 4g module, and the fourth, referring to the activation of the different audible and visual peripherals to obtain the driver’s reaction. The Cascade Trainer GUI platform was used. Additionally, the model was trained with the same tool. Python was used for the face and eye detection programs, as well as the playsound library for the messages. The electronic design includes high-power LED lights, amplifier circuit for LED lights, GPRS or GSM module, Raspi (infrared camera), Raspberry PI 3B, speakers, power supplies. The design of the electronic detection was carried out in PCB Wizard and the design of the casing was developed in Freecad. The system was validated using the confusion matrix, from which indicators of accuracy, precision, specificity, and score above 90% were obtained, with which a device could be presented whose detection speed was determined in 1.2 s.

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Guerra L, Rivero D, Quishpe S, Ibarra JL, Cacuango E. Modular Prototype of Artificial Vision for the Detection of Fatigue and Anti-drowsiness in Drivers of Land Vehicles. In Reis JL, Santos JPMD, Zelený J, Gavurová B, editors, Marketing and Smart Technologies - Proceedings of ICMarkTech 2023. Springer Science and Business Media Deutschland GmbH. 2024. p. 433-446. (Smart Innovation, Systems and Technologies). doi: 10.1007/978-981-97-1552-7_29

Modular Prototype of Artificial Vision for the Detection of Fatigue and Anti-drowsiness in Drivers of Land Vehicles

Abstract

Publication series

Conference

Bibliographical note

Keywords

UN SDGs

Access to Document

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