Your search keyword '"Breno Schwambach"' showing total 10 results

1. Using the Functional Object Detection—Advanced Driving Simulator Scenario to Examine Task Combinations and Age-Based Performance Differences: A Case Study

Author

Johnell O. Brooks, Rakesh Gangadharaiah, Elenah B. Rosopa, Rebecca Pool, Casey Jenkins, Patrick J. Rosopa, Lauren Mims, Breno Schwambach, and Ken Melnrick

Subjects

driving simulator, cognitive workload, Functional Object Detection, teen and senior vehicle drivers, reaction time, visual scanning, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Occupational therapists need objective tools to evaluate and provide interventions that promote the recovery and rehabilitation of clients. Driving, a common goal for clients after an injury or illness, is a complex task that relies on visual, cognitive, and motor skills. The Functional Object Detection and Functional Object Detection (FOD)—Advanced driving simulator scenarios were developed to provide objective and repeatable driving experiences allowing clinicians to assess their clients’ forward (focal) and peripheral vision, lane keeping, and speed maintenance, as well as provide interventions. Using FOD—Advanced, clinicians can adjust variables to create various task scenarios or combinations to meet the client’s needs and facilitate recovery by providing an appropriate challenge. This study examined four driving simulator scenario combinations and age-related differences for one combination. Study 1 explored older adults’ performance using four possible combinations of FOD—Advanced. Five out of eleven variables (average target reaction time, percentage of targets detected, average brake reaction time, number of target extra presses, and average speed) were effective in distinguishing among the four combinations of FOD with a cross-validated classification rate of 72%. In Study 2, one combination was selected from Study 1 and a group of teens completed the same tasks to evaluate age-related differences. Four out of thirteen simulator variables (standard deviation of brake reaction time, number of target extra presses, average target reaction time, and standard deviation of target reaction time) maximally distinguished the older adults from the younger participants with a cross-validated classification accuracy of 78%. Implications and recommendations for clinical practice and future research are provided.

Published

2024

2. Parents’ Views of a Classroom and Closed-Road Post-License Driving Program for Teen Drivers, Guard Your Life

Author

Lauren Mims, Johnell O. Brooks, Casey Jenkins, Breno Schwambach, and Daniel Gubitosa

Subjects

parent attitudes, teen drivers, defensive driving, emergency braking, skid recovery, distractions, Industrial safety. Industrial accident prevention, T55-55.3, Medicine (General), R5-920

Abstract

In the US, teenage drivers have an increased risk of being involved in crashes. To address this, post-license advanced driving programs have emerged. This study gains parents’ perspectives while observing their teens’ involvement in a post-license driving program focused on a hands-on introduction to emergency braking, skid recovery and the dangers of distracted driving. Parents completed a survey after the program, and for comparison purposes, the teens also completed a survey at the end of the program. While the parents only observed the program, the results revealed that most learned useful information and would consider additional training for themselves. Almost all teens and parents reported anticipating changing their driving behaviors, specifically by reducing distractions, having a heightened awareness and changing their driving position. These results suggest that parents benefited from simply observing the class.

Published

2020

3. Teenage Drivers’ Views of a Classroom and Closed-Road Post-License Advanced Driving Program, Guard Your Life

Author

Lauren Mims, Johnell O. Brooks, Casey Jenkins, Breno Schwambach, and Daniel Gubitosa

Subjects

teenage drivers, defensive driving, emergency braking, skid recovery, distractions, Industrial safety. Industrial accident prevention, T55-55.3, Medicine (General), R5-920

Abstract

In the US, teenage drivers have an increased risk of being involved in crashes. To address this, post-license advanced driving programs have emerged. This study gains teenagers’ perspective of a post-license defensive driving program focused on a hands-on introduction to emergency braking, skid recovery and the dangers of distracted driving. The teenagers completed a survey immediately following the program and a phone interview three months later. The open-ended survey and phone interview items reflect the program’s key concepts. During the follow-up phone interview, the majority of teenagers reported using the skills experienced and half of the participants who participated in the phone interview reported using skills that they learned to avoid a crash. Almost all teenagers reported anticipating or changing their driving behaviors, specifically by reducing distractions, having a heightened awareness and changing their driving position. The survey and follow-up phone interview results suggest that the teenagers benefited from the skills introduced and, from the teenagers’ perspective, has helped them avoid crashes.

Published

2020

4. Evaluating Drivers’ Understanding of Warning Symbols Presented on In-Vehicle Digital Displays Using a Driving Simulator

Author

Breno Schwambach, Johnell Brooks, and Casey Jenkins

Abstract

Since 1989, ISO has published procedures for developing and testing public information symbols (ISO 9186), while the SAE standard for in-vehicle icon comprehension testing (SAE J2830) was first published in 2008. Neither testing method was designed to evaluate the comprehension of symbols in modern vehicles that offer digital instrument cluster interfaces that afford new levels of flexibility to further improve drivers’ understanding of symbols.Using a driving simulator equipped with an eye tracker, this study investigated drivers’ understanding of six automotive symbols presented on in-vehicle displays. Participants included 24 teens, 24 adults, and 24 senior drivers. Symbols were presented in a symbol-only, symbol + short text descriptions, and symbol + long text description conditions. Participants’ symbol comprehension, driving performance, reaction times, and eye glance times were measured.The results of this study suggested that presenting automotive symbols on in-vehicle displays with text descriptions significantly improved drivers’ understanding of the symbols. Eye glance off the road times, symbol reaction times, and the self-reported cognitive workload measures suggested that text descriptions may increase distraction but did not effectively degrade driving performance.Overall, this study demonstrates that the current SAE and ISO symbol’s comprehension testing, and the comparison of alternative methods to communicate information on in-vehicle displays may benefit from additional tests in a dynamic setting, such as those offered by a driving simulator.

Published

2023

5. Evaluating Drivers’ Preferences and Understanding of Powertrain and Advanced Driver Assistant Systems Symbols for Current and Future Vehicles

Author

Lauren Mims, Casey Jenkins, Breno Schwambach, Patrick J. Rosopa, and Johnell Brooks

Subjects

Computer science, Powertrain, Advanced driver, Current (fluid), Automotive engineering

Published

2020

6. Teen Drivers’ Understanding of Instrument Cluster Indicators and Warning Lights from a Gasoline, a Hybrid and an Electric Vehicle

Author

Lauren Mims, Patrick J. Rosopa, Johnell Brooks, Casey Jenkins, and Breno Schwambach

Subjects

business.product_category, Electric vehicle, Environmental science, Gasoline, business, Instrument cluster, Automotive engineering

Published

2020

7. Development and Usability Testing of a Novel Parking Assist System that Aids Other Drivers While Parking

Author

Ken Melnrick, Julian Weber, Casey Jenkins, Joerg Schulte, Jochen Karg, Lauren Mims, Paul Venhovens, Breno Schwambach, Mitch Beckman, Dheemanth Uppalapati, Robert Knizek, and Johnell Brooks

Subjects

Medical Terminology, Transport engineering, business.industry, Computer science, Usability, business, Medical Assisting and Transcription

Abstract

Current parking assist systems are designed to aid the driver. This paper presents a new concept for a parking assist system that was designed to help other drivers. Sixteen participants participated in this usability study to evaluate the intuitiveness of the parking assist concept. The results showed that all of the participants understood the purpose of the system without any explanation. Participants provided valuable suggestions for future iterations. The majority of the participants would like to have this type of parking assist system on their own vehicle and would want to use it while parking. Future efforts are suggested prior to incorporating this concept on a production vehicle.

Published

2018

8. Development and usability of a novel holographic 3-dimensional user interface using hand-gesture control for a future vehicle application by older adults

Author

Paul Venhovens, Joerg Schulte, Johnell Brooks, Jochen Karg, Breno Schwambach, Julian Weber, Robert Knizek, Casey Jenkins, Yang Yang, Lauren Mims, and Shayne McConomy

Subjects

Medical Terminology, Graduate education, Computer science, business.industry, Human–computer interaction, Gesture recognition, Orange (software), Usability, User interface, business, Original equipment manufacturer, Medical Assisting and Transcription

Abstract

The Deep Orange program immerses automotive engineering students into the world of an OEM as part of their graduate education. While developing the program’s seventh vehicle concept, students explored new human machine interface concepts with the goal of having a clean, minimal interior design. One outcome of their ideation process is a concept for a holographic companion that can act as a concierge for all functions of the vehicle. After creating a prototype of the holographic display using existing technologies and developing a user interface controlled by hand gestures, a usability study was performed with older adults. The results suggest the system was not intuitive. Participants demonstrated better performance with tasks using discrete hand motions in comparison to those that required continuous motions. The data were helpful to understand the challenges of untrained users interacting with a new HMI system.

Published

2018

9. Student Concept Vehicle: Development and Usability of an Innovative Holographic User Interface Concept and a Novel Parking Assistance System Concept

Author

Mitchell Beckman, Julian Weber, Casey Jenkins, Robert Knizek, Ken Melnrick, Lauren Mims, Joerg Schulte, Breno Schwambach, and Johnell Brooks

Subjects

Development (topology), law, Computer science, business.industry, Human–computer interaction, Holography, System concept, Usability, User interface, business, law.invention

Published

2019

10. Conceptualization and Implementation of a Scalable Powertrain, Modular Energy Storage and an Alternative Cooling System on a Student Concept Vehicle

Author

Harry Siegel, Jochen Karg, Breno Schwambach, William Copley, Rohan Shrivastava, Mark Butterfield, Kyle Mattinson, Bhoomika Narasimhan, Kartik Bagga, Johnell Brooks, Paul Venhovens, Shayne McConomy, Joerg Schulte, Robert Prucka, Veera Aditya Yerra, Lauren Mims, Mitchell Beckman, Andrej Ivanco, Dheemanth Uppalapati, Robert Knizek, Julian Weber, and Casey Jenkins

Subjects

050210 logistics & transportation, Conceptualization, Powertrain, business.industry, Computer science, 05 social sciences, 02 engineering and technology, Modular design, Energy storage, 020303 mechanical engineering & transports, 0203 mechanical engineering, 0502 economics and business, Scalability, Systems engineering, Water cooling, business

Published

2018