Carolina Rigney

Title: Carolina Rigney: Innovator in Vehicle Interface Technology

Introduction

Carolina Rigney is a prominent inventor based in West Bloomfield, MI (US). She has made significant contributions to the field of vehicle interface technology, holding 2 patents that focus on enhancing driver interaction with motor vehicle systems.

Latest Patents

One of her latest patents is titled "Method to determine driver workload function and usage of driver workload function for human-machine interface performance assessment." This innovative method objectively measures a driver's ability to operate a motor vehicle user interface. It includes assessing the driver's performance on various calibration tasks of differing difficulty levels, generating a customized evaluation scale, and determining the appropriateness of the user interface for the driver based on objective measurements.

Another notable patent is "Systems and methods for haptic feedback control in a vehicle." This control system involves two modules: the first receives input from the vehicle operator via an input device, while the second selectively adjusts the resistance of the input device based on the operator's input and a predetermined threshold. This method aims to enhance the control experience for vehicle operators.

Career Highlights

Carolina Rigney is currently employed at Denso International America, Inc., where she continues to develop innovative solutions for vehicle technology. Her work focuses on improving the interaction between drivers and vehicle systems, making driving safer and more intuitive.

Collaborations

Throughout her career, Carolina has collaborated with talented individuals such as Silviu Pala and Justin McBride. These partnerships have contributed to her success in developing cutting-edge technologies in the automotive industry.

Conclusion

Carolina Rigney is a trailblazer in the field of vehicle interface technology, with her patents reflecting her commitment to enhancing driver safety and experience. Her innovative methods and systems are paving the way for future advancements in automotive technology.