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Shinichi Yoshioka

USPTO Granted Patents = 43

Average Co-Inventor Count = 2.7

ph-index = 17

Forward Citations = 803(Granted Patents)

Location History:

Escondido Village Stanford, CA (US) (2000)
Kodaira, JP (1996 - 2002)
Stanford, CA (US) (1999 - 2003)
Nishikamo-gun, JP (2003)
San Jose, CA (US) (2002 - 2004)
Saitama-ken, JP (2004)
Koganei, JP (2005)
Tokyo, JP (1998 - 2008)
Asaka, JP (2009)
Hyogo, JP (2011 - 2013)
Saitama, JP (2014)
Yokohama, JP (1998 - 2022)
Kanagawa, JP (2021 - 2022)

Company Filing History:

19 out of 42,508

7 out of 52,751

Kabushiki Kaisha Toshiba

Mitsubishi Heavy Industries Limited

4. 2 out of 3,781

Renesas Technology Corp.

5. 2 out of 560

Calsonic Kansei Corporation

6. 2 out of 221

Mitsubishi Power, Ltd.

7. 1 out of 162

Hitachi Engineering Co., Ltd.

8. 1 out of 336

Hitachi Ulsi Systems Co., Ltd.

9. 1 out of 651

Mitsubishi Hitachi Power Systems, Ltd.

10. 1 out of 87

Hitachi Ulsi Engineering Corp.

11. 3 out of 832,880

Other

patents

where one patent can have more than one assignee

Years Active: 1996-2025

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Areas of Expertise:

Gas Turbine Control

Fuel Control Device

Combustor Technology

Battery-Cell Module

Semiconductor Integrated Circuit

Cache Memory Management

Microprocessor Design

Data Transfer Control

Floating Point Arithmetic

Synchronous Circuit

DMA Handshake Protocol

Logical Cache Memory

43 patents (USPTO):Sort by Forward CitationsExplore Patents

1. 12196092 - Method of evaluating performance of gas turbine and device executing this method (2025-01-14),

2. 12152540 - Fuel control device, combustor, gas turbine, control method, and non-transitory computer-readable medium (2024-11-26),

3. 11536197 - Valve opening degree determination device for cooling-air adjustment valve, disk cavity target temperature determination device, and disk cavity temperature control device (2022-12-27),

4. 11492981 - Fuel control device, combustor, gas turbine, control method, and program (2022-11-08),

5. 11293305 - Control device, gas turbine, control method, and program (2022-04-05),

6. 11047315 - Control device for gas turbine and control method for gas turbine (2021-06-29),

7. 10746106 - Fuel control device and control method for a combustor of a gas turbine (2020-08-18),

8. 8632906 - Battery-cell module structure of battery (2014-01-21),

9. 8578715 - Gas turbine, method of controlling air supply and computer program product for controlling air supply (2013-11-12),

10. 8087251 - Gas turbine, method of controlling air supply and computer program product for controlling air supply (2012-01-03),

11. 7987660 - Gas turbine, method of controlling air supply and computer program product for controlling air supply (2011-08-02),

12. 7539242 - Semiconductor integrated circuit device and method of testing the same (2009-05-26),

13. 7381905 - Structure for fixing an electronic device to a substrate (2008-06-03),

14. 6944686 - Data transfer control circuit with terminal sharing (2005-09-13),

15. 6737896 - Synchronous circuit (2004-05-18),

Title: The Innovative Contributions of Shinichi Yoshioka in Gas Turbine Technology

Introduction

Shinichi Yoshioka, a prominent inventor based in Tokyo, Japan, has made significant strides in the field of gas turbine technology. With an impressive portfolio of 43 patents, Yoshioka's innovations have played a critical role in enhancing the efficiency and performance of gas turbines. His work is characterized by a meticulous approach to evaluating and improving gas turbine systems.

Latest Patents

Among Yoshioka's latest contributions is a sophisticated method for evaluating the performance of gas turbines. This method involves acquiring static operation determination data, which includes monitoring factors such as cavity temperature between the turbine vane's inner shroud and the rotor shaft. It also incorporates the use of index value data to determine whether the gas turbine is functioning within a static operation state. Furthermore, Yoshioka's innovative fuel control device contains components that estimate combustion temperature and dynamically control the fuel distribution from multiple supply systems, optimizing fuel flow for enhanced combustion efficiency.

Career Highlights

Throughout his impressive career, Yoshioka has collaborated with prestigious companies such as Hitachi, Ltd. and Toshiba Corporation, where he has contributed to the development of key technologies in gas turbine systems. His expertise in combustion and turbine performance evaluation continues to influence advancements in this vital energy sector.

Collaborations

Yoshioka has worked alongside esteemed colleagues, including Susumu Narita and Ikuya Kawasaki. Their combined efforts have fostered a collaborative environment that nurtures innovation and leads to the successful implementation of new technologies in gas turbine applications.

Conclusion

Shinichi Yoshioka's work exemplifies the impact of dedicated inventors in advancing technology. With his extensive list of patents and collaboration with industry leaders, he continues to shape the future of gas turbine technology, enhancing efficiency and sustainability within the energy sector.

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