Company Filing History:

18 out of 19,748

Denso Corporation

where one patent can have more than one assignee

Years Active: 2019-2025

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19 patents (USPTO):Sort by Forward CitationsExplore Patents

1. 12498459 - Radar apparatus (2025-12-16),

2. 12461199 - Axial misalignment estimation apparatus (2025-11-04),

3. 12455350 - Axial deviation estimating device (2025-10-28),

4. 12436263 - In-vehicle sensor device (2025-10-07),

5. 12235099 - Axial deviation estimating device (2025-02-25),

6. 12228681 - Radar device (2025-02-18),

7. 12222439 - Aliasing determination device (2025-02-11),

8. 12123939 - Object tracking apparatus (2024-10-22),

9. 12099139 - Axial misalignment estimation apparatus (2024-09-24),

10. 12078712 - Radar apparatus (2024-09-03),

11. 12038495 - Object tracking apparatus (2024-07-16),

12. 11994577 - Object tracking device (2024-05-28),

13. 11802952 - Position detecting apparatus (2023-10-31),

14. 11448723 - Radar apparatus (2022-09-20),

15. 11169252 - Object detection device (2021-11-09),

Title: Innovations by Takuya Takayama

Introduction

Takuya Takayama, located in Kariya, Japan, is a notable inventor with a distinguished portfolio encompassing 19 patents. His innovations reflect significant advancements in technology, particularly in the field of axial misalignment estimation.

Latest Patents

Takayama's latest patents include an "Axial Misalignment Estimation Apparatus." This apparatus calculates a first estimated speed ratio using an orientation angle adjusted based on an axial misalignment angle from prior measurement cycles. It further calculates a second estimated speed ratio assuming aliasing is present at the orientation angle. The device determines if aliasing exists for each stationary reflection point and corrects the orientation angle accordingly, ultimately estimating the axial misalignment angle based on these corrections.

Another noteworthy invention is the "Axial Deviation Estimating Device." This apparatus, designed for installation in a moving body, gathers reflection point information from a radar system. It extracts road-surface reflection points from this data, identifies apparatus system coordinates, and estimates both the axial misalignment angle and the height of the radar apparatus based on a relational expression involving unknown parameters.

Career Highlights

Takayama has contributed significantly to the innovation landscape during his tenure at reputable organizations such as Denso Corporation. His work has been influential in driving advancements in radar technology and misalignment estimation systems.

Collaborations

Throughout his career, Takayama has worked alongside talented professionals, including Katsuhiko Kondo and Yusuke Akamine. These collaborations have further enriched his development process, leading to the creation of impactful technologies.

Conclusion

Takuya Takayama's contributions to technology through his inventive spirit continue to showcase the importance of innovation in solving complex engineering challenges. With a strong focus on axial misalignment estimation, his work remains essential in enhancing system accuracy and reliability across various applications.

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