OUTLINE OF EXPERTISE
`
`•
`
`Internationally recognized expert in the field of lighting, LEDs and light
`sources, optical and illumination engineering.
`• Highly experienced with government relations, regulations, and specifications.
`• Leader and major contributor for the LED and lighting industry
`standards development.
`• Many years of leadership experience in major corporations for managing
`engineering, research, technology development, product design, testing,
`standards, compliance, technology and business strategies, intellectual
`property, academic and governmental interfaces.
`• High technical skills in optical, electrical, mechanical engineering and
`computer applications, specializing in lighting and LED product design and
`development.
`• Excellent communication and teaching skills.
`• Experienced expert witness, technical and business consultant for lighting
`and LED related civil and intellectual property litigations, technology
`strategies, and financial investments.
`
`EMPLOYMENT EXPERIENCE
`
`09/2015 – Present
`
`San Francisco, CA
`
`Consultant – JZJ Consulting, Inc.
`
`Consultation for industry, government agencies, academia, and professional
`associations in the areas of LEDs, lasers, and lighting. Examples of recent projects:
`- U.S. EPA Energy Star Lighting Program compliance.
`- U.S. DOE Solid-State Lighting R&D project reviews.
`-
`Laser headlamp and ADB technology development for a government
`sponsored project.
`- Technology scouting, design review, and standard development for
`automotive OEMs, automotive lighting (tier-one) suppliers, and major LED
`manufacturers.
`- Testing and evaluation standards compliance for photometry instruments
`manufacturers.
`- Product compliance review for lighting manufacturers on behalf of
`the independent test labs.
`- M&A strategies for automotive lighting (tier-one) suppliers.
`- NIST Assessor for NVLAP accredited laboratories.
`- Expert witness for IP disputes and litigations.
`
`06/2007 – 09/2015
`
`Sunnyvale, CA
`
`Director – Regulations and Emerging Technologies, OSRAM Opto Semiconductors
`Inc. (www.osram-os.com, OSRAM Opto is one of the world-wide largest LED
`
`VWGoA EX1004
`U.S. Patent No. 9,955,551
`
`

`

`Jianzhong Jiao, Ph.D.
`750 Van Ness Avenue, Unit 805, San Francisco, CA 94102, 415-606-3322, j_jiao@hotmail.com
`
`companies, a subsidiary of OSRAM GmbH).
`
`-
`
`-
`
`Responsibilities and Major Accomplishments:
`- Functioned as company’s NAFTA liaison for technology scouting and
`monitoring in industry, academics, and startups.
`Interfaced with academic and industrial consortium programs to present
`the company’s positions and to collaborate product and technology
`development strategies with LED, laser, sensor, and lighting industry.
`- Managed LED and lighting regulations and standards activities.
`- As the company’s representative, interfaced with U.S. governmental agencies
`such as U.S. DOE, DOT, EPA, and DOC, as well as state level authorities
`such as CEC, etc.
`Interfaced and participated in the U.S. professional, standard and trade
`organizations such as ANSI, SAE, IESNA, NEMA, UL, IEEE, JEDEC,
`SEMI, ASABE, CIE-USA, etc. to establish and revise industry standards
`relating to LEDs and lasers.
`- Established strategies for the emerging technologies for LED and laser
`applications.
`- Established company-wide system to integrate standard and regulation
`requirements into product development and quality management; transferred
`the engineering mentality and awareness from a high-tech semiconductors
`basis to lighting commodities; strategically placed the company’s position in
`the standardization bodies.
`- Managed the LED technology strategies and implementations in the fields
`of automotive, general illumination, horticulture, display, medical, defense,
`and others in the NAFTA market.
`
`08/1993 – 06/2007
`
`Farmington Hills, MI
`
`General Manager (Previously Manager up to 10/1998) – Engineering
`Technology, North American Lighting, Inc. (www.nal.com, a primary and the
`largest automotive lighting supplier in North American and an affiliation of Koito
`www.koito.co.jp, the world-wide largest automotive lighting company).
`
`Responsibilities and Major Accomplishments:
`- Provided strategic planning for new technology implementation and
`new business development
`- Established from ground zero and managed world-class engineering
`team consisting of four departments: Optical Design, Electronic
`Technologies, Engineering Analysis, and Regulation and Standards
`- Assisted the company to grow and expand the US customer base and
`revenue from $100 million to a half billion, and made the company the largest
`US automotive lighting supplier.
`Investigated, identified and negotiated technology transfer and
`technology exchange with the foreign shareholder companies.
`- Managed intellectual property protection including patent applications
`
`-
`
`Updated October 2022
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`
`Jianzhong Jiao, Ph.D.
`750 Van Ness Avenue, Unit 805, San Francisco, CA 94102, 415-606-3322, j_jiao@hotmail.com
`
`
`
`Troy, MI & Anderson, IN
`
`
`09/1989 – 08/1993
`
`Sr. Development Engineer & Project Manager – Advanced Development in
`Lighting, General Motors Corporation, IFG Division.
`- Participated in and managed R&D projects in technology development to
`implement state-of-the-art technologies in automotive lighting
`applications.
`- Led technology development projects including holograms, optical waveguides
`and light guides, fiber optics, non-imaging optics, computer-aided optical
`design, thermal analysis, LED, HID, neon and other new light source
`applications in the automotive lighting systems.
`
`
`PROFESSIONAL EXPERIENCE – ACADEMIC/INDUSTRIAL
`
`07/2019 – Present
`
`Technology Advisory Board Member – Lucidity Lights, Inc.
`
`To provide the company guidance with respect to its corporate, research and product
`development and marketing activities; to assist the company in the development and
`sale of commercial lighting products.
`
`2007 – Present
`
`Technical Advisory Penal Member – Strategies in Light
`
`To provide technical advices for topics, paper reviews, and speaker invitations for
`Strategies in Light Conference.
`
`01/2010 – 12/2018
`
`Industry Advisory Board Member – Lighting Enabled System & Applications
`(LESA, formally Smart Lighting) Engineering Research Center (ERC)
`
`
`The ERC was created in 2008 at Rensselaer Polytechnic Institute (RPI). Funded
`by the National Science Foundation and the State of New York, RPI works with
`core partners, Boston University and the University of New Mexico to
`investigate and develop light-emitting diode (LED) technologies that will one day
`change the way we illuminate our world. The ERC is a superb example of how
`academia, federal and state governments, and industry can work together to
`advance the state of science and engineering while creating new opportunities
`for students, faculty, and businesses.
`
`
`03/2003 – Present
`
`
`Updated October 2022
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`3 of 16
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`

`

`Jianzhong Jiao, Ph.D.
`750 Van Ness Avenue, Unit 805, San Francisco, CA 94102, 415-606-3322, j_jiao@hotmail.com
`
`Instructor – Professional Seminars, SAE Continuing Education Programs.
`
`Taught three college credited short courses both publicly and customer in-house:
`- SAE Seminar C0202, “Automotive Lighting I – Design & Technology”:
`Lighting fundamentals, design principles and new technologies, 2-days
`course.
`- SAE Seminar C0618, “Automotive Lighting II – Testing & Requirement”:
`Automotive lighting definitions, terminologies, testing, and requirements, 1-
`day course.
`- SAE Seminar C0727, “Automotive Lighting III – LED Application”: LED
`basics, LED measurements and standardization, LED automotive exterior
`and interior lighting design strategies and concepts, 1-day course.
`
`01/2009 – 2012
`
`Instructor – Short Course, SPIE – Society of International Optical Engineers.
`
`Teaching college credited short course SC958 “LED & Solid-State Lighting
`Standardization and Metrology”.
`
`05/2011 – Present
`
`Instructor – Workshop, Strategies in Light
`
`Teaching workshop “LED & LED Lighting Standards and Methods
`of Measurements”.
`
`05/2010 – Present
`
`Instructor – Short Course and Workshop, Light Fair International
`
`Teaching college credited short courses “LED & Solid-State Lighting Standardization”
`and “Methods of Measurements for LEDs”.
`
`09/1992 – 06/1997
`
`Southfield, MI
`
`Faculty (Adjunct) – Department of Physics and Department of Electrical
`Engineering, Lawrence Technological University.
`
`Taught undergraduate courses: non-calculus based and calculus based college
`physics including instructing laboratory experiments; taught undergraduate course:
`optical engineering.
`
`09/1990 – 06/1992
`
`Anderson, IN
`
`Faculty (Adjunct) – Department of Physics, Purdue University Anderson Campus.
`
`Updated October 2022
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`4 of 16
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`

`
`
`Jianzhong Jiao, Ph.D.
`750 Van Ness Avenue, Unit 805, San Francisco, CA 94102, 415-606-3322, j_jiao@hotmail.com
`
`
`
`Beijing, China
`
`Evanston, IL & Troy, NY
`
`
`Taught undergraduate courses: Physical Sciences including instructing laboratory
`experiments.
`
`01/1985 – 09/1989
`
`Teaching Assistant/Research Assistant – Department of Electrical Engineering and
`Computer Science, Northwestern University, Evanston, IL; Department of Physics,
`Rensselaer Polytechnic Institute.
`
`Assisted undergraduate courses in physics and electrical engineering, instructed
`laboratory courses, conducted problem solving sessions, graded homework and
`exams.
`
`07/1983 – 12/1984
`
`Assistant Professor – Department of Applied Physics, Beijing Institute of Posts and
`Telecommunications.
`
`Taught undergraduate courses: physical optics, modern optics including laboratory
`experiments.
`
`EXPERT WITNESS EXPERIENCE
`
`Experienced expert witness for litigations and IP disputes including inter parties
`review process for:
`
`1. U.S. ITC Investigation No. 337-TA-1213, Certain Light-Emitting Diode
`Products, Fixtures, and Components Thereof.
`2. U.S. ITC Investigation No. 337-TA-1195, Certain Electronic Candle
`Products, and Components Thereof.
`3. Case No. IPR2020-01456, U.S. Patent 7,781,789, General Electric Company.
`4. Case No. IPR2020-01457, U.S. Patent 9,240,529, General Electric Company.
`5. Case No. IPR2020-01458, U.S. Patent 9,859,464, General Electric Company.
`6. Case No. IPR2020-01459, U.S. Patent 10,217,916, General Electric Company.
`7. Case No. CV 19-4047-PSG, Jiaxing Super Lighting Electric Appliance Co. Ltd.
`v. MaxLite, Inc.
`8. Case No. IPR2020-00162, U.S. Patent 9,897,265, MaxLite, Inc. et al. v. Jiaxing
`Super Lighting Electric Appliance Co. Ltd. et al.
`9. Case No. 3:19-cv-797, CHM Industries, Inc. dba Carolina High Mast v. Tristar
`Inc.
`10. U.S. ITC Investigation No. 337-TA-3385, Light-Emitting Diode Products,
`Systems, and Components Thereof.
`11. Case No. 2:18-cv-05664, Kuen Hwa Traffic Industrial Co. v. DNA Motor, Inc.
`12. Case No. BC711451, Capital Lighting & Electric Supply of South Bay, Inc.,
`Deco Enterprises, Inc. v. Envision LED Lighting, Inc.
`
`Updated October 2022
`
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`5 of 16
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`

`
`
`Jianzhong Jiao, Ph.D.
`750 Van Ness Avenue, Unit 805, San Francisco, CA 94102, 415-606-3322, j_jiao@hotmail.com
`
`
`13. Case No. RIC1406194, Viribright Lighting. Inc. v. VLB Lighting, Riverside
`County Superior Court.
`14. U.S. ITC Investigation No. 337-TA-1107, Fraen Corporation Concerning
`Certain LED Lighting Devices and Components Thereof.
`15. Case No. IPR2018-01309, U.S. Patent 6,547,394, Haag-Streit AG v.
`Eidolon Optical, LLC.
`16. Case No. IPR2018-01311, U.S. Patent 6,547,394, Haag-Streit AG v. Eidolon
`Optical, LLC.
`17. Case No. 3:17-CV-00792-JAM, Light Sources, Inc. v. First Light Technologies,
`Inc.
`18. Case No. IPR2017- 01260, U.S. Patent 6,831,303, Cree Inc. v. Optolum Inc.
`19. Case No. IPR2017- 01261, U.S. Patent 7,242,028, Cree Inc. v. Optolum Inc.
`20. Case No. IPR2017- 01511, U.S. Patent 7,242,028, Cree Inc. v. Optolum Inc.
`21. Case No. 2:13-CV-06383-JD, Dorman Products, Inc. vs. Paccar Inc.
`22. Case No. CV12-CV-229, Arthur Wolf vs. Indian Motor Company, Polaris
`Industries Inc., and Paul Burger, D/B/A Burger Enterprises.
`23. Case No. CV08-07078 DDP (VBKx), Grand General Accessories Manufacturing,
`Inc., vs. United Pacific Industries.
`24. Case No. 1:09-CV-07151-RJS, Carlos Collado, Richard Hock, Bill Urban, Enrique
`Cantu, Paul Bigbie, William Askew, Jacek Pawlowicz, and James Freeman, on
`behalf of themselves and all others similarly situated vs. Toyota Motor Sales,
`U.S.A., Inc.
`25. Case No. 2:10-CV-03113-R-RMC, Carlos Collado, on behalf of himself and all
`others similarly situated vs. Toyota Motor Sales, U.S.A., Inc.
`
`
`INDUSTRIAL & PROFESSIONAL SOCIETY LEADERSHIP
`
`2004 – Present
`
`Active Member and Leader – US professional associations, trade associations and
`standardization organizations that are developing LED and LED lighting standards
`include:
`
`
`- Chair (2015 – 2018), ASABE Plant Growth LED Lighting Committee
`- Chair (2008 – 2011), Vice Chair (2004 – 2008), SAE Lighting
`Standard Committee
`- Vice Chair (2009 – 2015), ANSI TC78 WG09 SSL Light Source Committee
`- Treasurer (2012 – 2020), IES Testing Procedures Committee
`- Vice Chair (2016 – Present), IES Light Source Committee
`- Chair (2020 – Present), Vice Chair (2014 – 2020), IES Computer Committee
`- Chair (2007 – 2009), NEMA Lighting Division, SSL Section Technical Committee
`- Chair (2008 – 2009), Next Generation Lighting Industry Alliance (NGLIA)
`- Member, ASABE Energy System Oversight Committee
`- Member, ANSI TC82 WG04 SSL Driver Committee
`- Member, IES Roadway Lighting Committee
`- Member, CIE TC2-76, AC LED Characterization Working Group
`
`Updated October 2022
`
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`6 of 16
`
`

`

`
`
`Jianzhong Jiao, Ph.D.
`750 Van Ness Avenue, Unit 805, San Francisco, CA 94102, 415-606-3322, j_jiao@hotmail.com
`
`
`- Member, UL8750 LED Source Safety Standard Technical Penal
`- Member, UL8800 Horticultural Lighting Safety Standard Technical Penal
`- Member, IEEE PAR 1789 LED Flicker Health Hazards Committee
`- Member, JEDEC C-15 LED Thermal Measurement Committee
`
`
`1994 – Present
`
`Lead, Major Contributor, or Working Group Member – Newly established LED
`lighting standards include:
`- ANSI/ASABE S642 SEPT2018, Recommended Methods for Measurement and
`Testing of LED Products for Plant Growth and Development
`- ANSI/ASABE S640 JUL2017, Quantities and Units of Electromagnetic
`Radiation for Plants (Photosynthetic Organisms)
`- ANSI C78.377-2017, Specifications for the Chromaticity of Solid-State
`Lighting Products
`- ANSI C78.374-2015, LED Specification Sheet
`- ANSI/IES LM-79-19, Approved Method for the Electrical and
`Photometric Measurements of Solid-State Lighting Products
`- ANSI/IES LM-80-20, Approved Method for Measuring Luminous Flux and
`Color Maintenance of LED Packages, Arrays, and Modules
`- ANSI/IES TM-21-21, Projecting Long Term Lumen Maintenance of LED Light
`Sources
`- ANSI/IES LM-82-20, Approved Method for the Characterization of LED Light
`Engines and LED Lamps for Electrical and Photometric Properties as a
`Function of Temperature
`- ANSI/IES LM-84-20, Approved Method for Measuring Lumen Maintenance
`of LED Lamps, Light Engines, and Luminaires
`- ANSI/IES TM-28-20, Projecting Long Term Lumen Maintenance of LED
`Lamps and Luminaires
`- ANSI/IES LM-85-20, Approved Method for the Electrical and
`Photometric Measurements of High-Power LEDs
`- ANSI/IES TM-25-20, Ray File Format for the Description of the Emission
`Property of Light Sources
`- ANSI/IES TM-27-20, IES Standard Format for the Electronic Transfer of Spectral
`Data
`- ANSI/IES TM-26-20, Projection of LED Package Failure Rate
`- ANSI/IES LM-86-20, Approved Method for Measuring Luminous Flux
`and Color Maintenance of Remote Phosphor Components
`- ANSI/IES LM-88-20, Approved Method: Optical and Electrical Measurements
`of AC-LED Packages and Arrays or Modules
`- ANSI/IES LM-90-20, IES Method of Measuring Optical Waveforms for use in
`Temporal Light Artifact (TLA) Calculations
`- ANSI/IES LM-91-21, Approved Method: Application Distance Radiometry
`- UL8750, LED Equipment for Use in Lighting Products
`- NEMA SSL-1, Electronic Drivers for LED Device, Arrays, or Systems
`- NEMA SSL-3, High Power White LED Binning for General Illumination
`
`Updated October 2022
`
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`7 of 16
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`

`
`
`Jianzhong Jiao, Ph.D.
`750 Van Ness Avenue, Unit 805, San Francisco, CA 94102, 415-606-3322, j_jiao@hotmail.com
`
`
`- NEMA SSL-4, SSL Retrofit Lamps: Suggested Minimum
`Performance Requirements
`- SEMI 5265A, Specifications for Sapphire Wafers Intended for Use
`for Manufacturing High Brightness Light-Emitting Diode Devices
`- JESD51-51, Implementation of the Electrical Test Method for the
`Measurement of Real Thermal Resistance and Impedance of Light-Emitting
`Diodes with Exposed Cooling
`- SAE J1889, LED Signal and Marking Lighting Devices
`- SAE J2650, Performance Requirements for Light Emitting Diode
`Road Illumination Devices
`- SAE J2938, LED Light Sources Tests and Requirements Standard Part 2:
`LED Lumen and Color Maintenance Measurements
`- SAE J3014, Highly Accelerated Failure Test (HAFT) for Automotive Lamps
`with LED Assembly
`
`Detroit, MI
`
`
`1996 – Present
`
`Organizer & Chairman – SAE World Congress, Lighting Technology Conference
`
`Organize the largest international automotive lighting technology annual events,
`review technical papers and presentations, invite speakers on selected topics,
`establish conference programs, chair the conferences, and edit proceedings.
`
`2008 – 2018
`
`Conference Organizer and Session Chairman – SPIE Optics + Photonics,
`International Conference on Solid-State Lighting, and LED-Based Illumination Systems
`
`Participation in organizing one of the largest international conferences on LEDs and
`SSL, review topics, invite speakers, establish conference programs, and chair the
`conferences.
`
`1996 – 2013
`
`Organizer – SAE Lighting Forum
`
`Organize and facilitate Forum for education and information exchange of the topics
`of:
`
`San Diego, CA
`
`- LEDs: The Latest and Greatest
`- Safety: Vehicular Lighting and Roadway Lighting
`IR and Night Vision Technologies
`-
`- LED Technology Update
`- Glare, Human Factor’s Perspectives
`- Color & CRI
`Intelligent Lighting Systems
`-
`
`
`
`Updated October 2022
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`8 of 16
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`
`
`Jianzhong Jiao, Ph.D.
`750 Van Ness Avenue, Unit 805, San Francisco, CA 94102, 415-606-3322, j_jiao@hotmail.com
`
`
`EDUCATION
`
`1985 – 89 Ph.D. in Electrical Engineering, Northwestern University, (GPA
`4.0/4.0), Evanston, IL
`Graduate Studies (Ph.D. Program) in Physics, Rensselaer
`Polytechnic Institute, (GPA 4.0/4.0), Troy, NY
`1980 – 83 M.S. in Applied Physics, Beijing Institute of Posts and
`Telecommunications, Beijing, China
`1976 – 80 B.S. in Mechanical Engineering, Beijing Polytechnic University,
`Beijing, China
`
`1985
`
`
`PROFESSIONAL TRAINING
`
`08/2015 Change Leadership, Cornell University eCornell. Identify opportunities
`for change, negotiate support, and implement the initiatives. Ensure
`successful implementation by managing conflict, organizing resources,
`motivating and directing, and developing political and organizational
`agility.
`09/2009 Photometry Short Course, National Institute of Standard Technology,
`US DOC.
`05/2007 Leadership Beyond Management, University of Wisconsin Business
`School, a comprehensive executive training program focused on emotional
`intelligence in a leadership role.
`05/1995 Executive Communication, University of Michigan Business School,
`an intensive and comprehensive training program taught by dedicated
`well- known professors specializing in communications.
`1990 – 05 Management Training Courses & Seminars:
`- Fundamentals of Accounting and Budgeting
`- How to Effectively Work with Japanese
`- Negotiation Skills
`- Business Writing for Results
`- Management Skills for New Technical Managers and Supervisors
`- Program Management; Lead-Time Reduction; Problem Solving
`- Quality Function Deployment (QFD)
`- System of Experimental Design (Taguchi Method)
`
`
`U.S. PATENTS
`
`1.
`2.
`
`“Self-Aim Vehicle Light Device”, U.S. Patent No. 7,144,141
`“Apparatus and Method for Providing a Modular Vehicle Light Device”, U.S.
`Patent No. 7,059,754
`“Reflector Apparatus for a Tubular Light Source” U.S. Patent No. 6,953,261
`“Vehicle Fog Lamp”, U.S. Patent No. D503,004
`“Light Coupler Hingdely Attached to a Light Guide for Automotive Lighting”, U.S.
`Patent No. 6,623,132.
`“Display Device Using a Light Guide for Exterior Automotive Lighting”, U.S.
`
`3.
`4.
`5.
`
`6.
`
`Updated October 2022
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`9 of 16
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`

`

`
`
`7.
`
`Jianzhong Jiao, Ph.D.
`750 Van Ness Avenue, Unit 805, San Francisco, CA 94102, 415-606-3322, j_jiao@hotmail.com
`
`
`Patent No. 6,305,813.
`“Automotive Headlamp Reflector and Method for Its Design", U.S. Patent No.
`6,007,224.
`“Fiber Optic Light Coupler”, U.S. Patent No. 5,390,265
`“Illuminator Device for a Display Panel”, U.S. Patent No. 197,792
`
`8.
`9.
`
`
`BOOKS
`
`1. Editor: “Automotive Lighting Technology and Human Factors in Driver Vision and
`Lighting”, Published by SAE SP2300, April 2011
`2. Editor: “Automotive Lighting Technology and Human Factors in Driver Vision and
`Lighting”, Published by SAE SP2266, April 2010
`3. Editor: “Automotive Lighting Technology”, Published by SAE SP-2223, April 2009
`4. Editor: “Automotive Lighting Technology”, Published by SAE SP-2149, April 2008
`5. Editor: “Automotive Lighting Technology and Human Factors in Driver Vision and
`Lighting”, Published by SAE SP-2106, April 2007
`6. Editor: “Automotive Lighting Technology and Human Factors in Driver Vision &
`Lighting; Rear Vision & Indirect Vision”, Published by SAE SP-1993, April 2006
`7. Editor: “Lighting Technology and Human Factors”, Published by SAE SP-1932,
`April 2005
`8. Editor: “Lighting”, Published by SAE SP-1875, March 2004
`9. Editor: “Lighting Technology”, Published by SAE SP-1787, March 2003
`10. Editor: “Advanced Lighting Technologies for Vehicles”, Published by SAE SP-
`1668, March 2002
`11. Editor: “Lighting Technology Development for Automobiles”, Published by SAE
`SP-1595, March 2001
`12. Editor: “Automotive Lighting Research”, Published by SAE SP-1531, March 2000
`13. Editor: “Advances in Automotive Lighting Technologies”, Published by SAE SP-
`1424, March 1999
`14. Editor: “Automotive Lighting Technology”, Published by SAE SP-1323, March
`1998
`15. Editor: “New Concepts in Automotive Lighting Technology”, Published by SAE
`SP-1249, March 1887
`
`
`TECHNICAL PAPERS & ARTICLES
`
`1.
`
`“Major Contributors in LED and Lighting Standards Have LED and SSL
`Revolution”, LED Magazine, February 2018.
`“Work Continues on Three LED Lighting Reliability Standards”, LED Magazine,
`May 2017.
`“Work Continues on Three LED Lighting Reliability Standards”, LED Magazine,
`May 2017.
`“SAE Adds New Standards for LED-Based Automotive Lighting”, LED Magazine,
`February 2017.
`“ASABE Committee Continue Work on LED Horticultural Lighting Standards”,
`
`2.
`
`3.
`
`4.
`
`5.
`
`Updated October 2022
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`7.
`
`8.
`
`9.
`
`
`
`6.
`
`Jianzhong Jiao, Ph.D.
`750 Van Ness Avenue, Unit 805, San Francisco, CA 94102, 415-606-3322, j_jiao@hotmail.com
`
`
`LED Magazine, November 2016.
`“Industry Progresses on Testing Standard for AC-driven LEDs”, LED Magazine,
`February 2016.
`“ANSI Continues Advancements on SSL Chromaticity Standard”, LED Magazine,
`December 2015.
`“IES Explores Projection Method Developments Using LM-80 Data”, LED
`Magazine, September 2015.
`“Stakeholders Make Progress on LED Lighting Horticulture Standards”, LED
`Magazine, June 2015.
`10. “Illuminating Engineering Society Updates LED Testing Standards”, LED
`Magazine, April 2015.
`11. “ANSI Works to Update the SSL Chromaticity Standard”, LED Magazine,
`February 2015.
`12. “IES Establishes New Standard for Spectral Data Transfer”, LED Magazine,
`December 2014.
`13. “LED Automotive Lighting Applications Require Unique SAE Standards”, LED
`Magazine, September 2014.
`14. “ANSI Recognizes Need for LED Drive Testing Standard”, LED Magazine, June
`2014.
`15. “IES LM-85 Homogenizes High-Power LED Measurement and
`Characterization”, LED Magazine, February 2014.
`16. “IES TPC Considers LM Standard for Remote Phosphor Optics”, LED Magazine,
`December 2013.
`17. “IES Moves to Establish LED Light Source Ray File Standard”, LED Magazine,
`July 2013.
`18. “New Standards Will Enable Lumen Maintenance Projection for SSL”, LED
`Magazine, April 2013.
`19. “ANSI Works to Standardize LED Datasheet for White LEDs”, LED Magazine,
`February 2013.
`20. “SEMI Committee Progresses in HB LED Process Standards”, LED Magazine,
`October 2012.
`21. “Standards Emerge for Thermal Characterization of LEDs”, LED Magazine,
`September 2012.
`22. “JEDEC Test Standards and LED Package Reliability”, LED Magazine, April
`2012.
`23. “Testing LEDs for Automotive Lighting Applications”, SAE World Congress,
`Detroit, MI, April 2012.
`24. “Lumen Maintenance Testing for LED Lamps, Light Engines, and Luminaires”, LED
`Magazine, February 2012.
`25. “A Method for Projecting Lumen Maintenance of LED light Sources”, IES Annual
`Conference, Austin, TX, November 2011.
`26. “Understand the Difference between LED Rated Life and LED Lumen
`Maintenance Life”, LED Magazine, October 2011.
`27. “ANSI Evaluates Revisions to SSL Chromaticity Standard”, LED Magazine,
`August 2011.
`28. “LED Safety Standard UL8750 Requires Further Clarification”, LED
`
`Updated October 2022
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`11 of 16
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`
`
`Jianzhong Jiao, Ph.D.
`750 Van Ness Avenue, Unit 805, San Francisco, CA 94102, 415-606-3322, j_jiao@hotmail.com
`
`
`Magazine, April 2011.
`29. “TM-21 Seeks Methods for Lumen Maintenance Prediction”, LED Magazine,
`February 2011.
`30. “Non-Directional Luminaires Require New Testing Procedures for LED Light
`Engines”, LED Magazine, December 2010.
`31. “LED Lighting Community Benefits from Ongoing Standardization Efforts”, LED
`Magazine, April 2010.
`32. “Standardization for Light Emitting Diodes and Solid-State Lighting”, LED Journal,
`August/September 2009.
`33. “High-Efficiency Reflector Optics for LED Forward Lighting”, SPIE Proceedings
`Vol. 6670, September 2007.
`34. “Optical Transform Limitations in Headlamp Photometric Performance”, SAE
`Technical Paper Series 2005-01-0861, April 2005.
`35. “Studies for Headlamp Optical Design Using LEDs”, SAE Technical Paper Series
`2004-01-0434, March 2004.
`36. “Etendue Concern for Automotive Headlamp Using LEDs”, SPIE Proceedings
`Vol. 5187, January 2004.
`37. “Temperature Predictions Using Thermal Database and Design Sensitivity
`Analysis”, SAE Technical Paper Series 1999-01-0699, March 1999.
`38. “Environment Leading to Condensation in Automotive Lamps”, SAE Technical
`Paper Series 980316, February 1998.
`39. “Study of Tubular Volume Light Source Intensity Distribution”, SAE Technical
`Paper Series 980320, February. 1998.
`40. “Mechanisms of Water Ingress in Automotive Lamps”, Progress in Automotive
`Lighting (PAL) Symposium Proceedings, September 1997.
`41. “Design Strategy for Free-Form Reflector Head Lamp Using High Intensity
`Discharge Light Source”, SAE Technical Paper Series 970092, February 1997.
`42. “High Performance Fog Lamps: Design Strategies and Proper Usage”, SAE
`Technical Paper Series 960928, February 1996.
`43. “Low Beam Head Lamp Design Using Distributive Lighting System”, SAE
`Technical Paper Series 960489, February 1996.
`44. “Automotive Head Lamp Beam Pattern Uniformity Evaluation”, SAE Technical
`Paper Series 960789, February 1996.
`45. “Quantitative Evaluation of the Uniformity for an Automotive Head Lamp Beam
`Pattern”, SPIE Proceedings Vol. 2622, August 1995, also on Progress in
`Automotive Lighting (PAL) Symposium Proceedings, September 1995.
`46. “Intelligent Vehicle Lighting”, Convergence, Dearborn, MI, October 1994.
`47. “Relief Holograms on an Optical Waveguide Using Embossing or Injection
`Molding”, OSA Annual Meeting, Albuquerque, NM, September 1992.
`48. “Fiber Optic Application in Automotive Lighting system”, (GM) Engineering
`Technology Conference, Warren, MI, June 1991.
`49. “Recent Developments on Holography in China”, SPIE Proceedings Vol. 1238,
`February 1991.
`50. “Holographic Technology in Automobile Lighting System”, (GM) Product
`Engineering Technology Conference, Warren, MI, May 1990.
`51. “Boundary Layer Analysis of Infrared Whispering-Gallery Waveguides”, SIAM
`
`Updated October 2022
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`12 of 16
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`52.
`
`Jianzhong Jiao, Ph.D.
`750 Van Ness Avenue, Unit 805, San Francisco, CA 94102, 415-606-3322, j_jiao@hotmail.com
`
`
`Journal on Applied Mathematics Vol. 50, No. 2, 1990.
` “Transverse Magnetic Loss in a Uniformly Bent Metallic Waveguide at 10.6m”,
`Applied Optics, Vol. 29, No. 18, 1990.
`53. “Losses of Infrared Biconcave Metallic Whispering-Gallery Waveguides”, Infrared
`Physics, Vol. 29 No. 213, 1989.
`54. “Losses for Vector Solutions of Infrared Whispering-Gallery Waveguides”,
`Society of Industrial and Applied Mathematics Annual Meeting, Minneapolis,
`Minnesota, July 1988
`55. “Wigner Distribution Function and Optical Geometrical Transformation”, Applied
`Optics, Vol. 23, No .8, 1984
`
`
`INVITED SPEECHES & PRESENTATIONS
`
`1.
`
`“Solid-State Light Sources and Light Measurements in Automotive Lighting”,
`CORM / CIE US & Canadian National Committees Joint Conference,
`November 2021.
`“Importance of LED Lighting Standards and Regulations”, Light Fair
`International, Philadelphia PA, October 2021.
`“LED Lighting Standards and Methods of Measurements”, Strategies in Lights,
`San Diego CA, February 2020.
` “Optical Design Considerations for Automotive Lighting”, Advanced Lighting for
`Automotive Summit, Detroit MI, May 2019.
`“LED Automotive Lighting Standard Development in the U.S.”, Advanced Lighting
`for Automotive Summit, Detroit MI, May 2019.
`“LED Lighting Methods of Measurements”, Light Fair International, Philadelphia
`PA, May 2019.
`“LED Lighting Standards and Methods of Measurements”, Strategies in Lights,
`Las Vegas NV, February 2019.
`“U.S. LED Lighting Standards and Updates”, Light Fair International, Chicago IL,
`May 2018.
`“LED Lighting Standards and Methods of Measurements”, Strategies in Lights,
`Long Beach CA, February 2018.
`10. “Establishing Standards for Horticultural Lighting – Enabling Optimal Utility
`Incentive Programs”, EUCI Conference, San Francisco CA, October 2017.
`11. “Methods of Measurements for LEDs and LED Lighting”, Light Fair International,
`Philadelphia PA, May 2017.
`12. “LED Lighting Standards and Methods of Measurements”, Strategies in Lights,
`Anaheim CA, February 2017.
`13. “LED Lighting Standards and Methods of Measurements”, Strategies in Lights,
`Santa Clara CA, February 2016.
`14. “Methods of Measurements for LEDs and LED Lighting”, Light Fair International,
`New York NY, May 2015.
`15. “LED Lighting Standards and Methods of Measurements”, Strategies in Lights,
`Les Vegas NV, February 2015.
`16. “Methods of Measurements for LEDs and LED Lighting”, Light Fair International,
`Les Vegas NV, June 2014.
`
`2.
`
`3.
`
`4.
`
`5.
`
`6.
`
`7.
`
`8.
`
`9.
`
`Updated October 2022
`
`
`13 of 16
`
`

`

`
`
`Jianzhong Jiao, Ph.D.
`750 Van Ness Avenue, Unit 805, San Francisco, CA 94102, 415-606-3322, j_jiao@hotmail.com
`
`
`17. “LED Lighting Standardization in the U.S.”, CIE 2014 Lighting Quality & Energy
`Efficiency, Kuala Lumpur, Malaysia, April 2014.
`18. “LED Lighting Standards and Methods of Measurements”, Strategies in Lights,
`Santa Clara CA, February 2014.
`19. “LED & Solid-State Lighting Standards in the U.S.”, LEDs Magazine Webcast,
`September 2013.
`20. “LED Automotive Lighting Standards Development in SAE”, First International
`Forum on Automotive Lighting, Kunshan, China, June 2013.
`21. “LED Lighting Standards and Methods of Measurements”, Strategies in Lights,
`Santa Clara CA, February 2013.
`22. “LED & Solid-State Lighting Standards and Metrology”, SPIE Photonics West,
`San Francisco CA, February 2013.
`23. “LED and Solid-State Lighting Standardization in U.S.”, LED Korea 2013
`Conference, Seoul, Korea, January 2013.
`24. “The Latest in LED Lighting Test Methods and Standards”, The US EPA Energy
`Star Partner Meeting, St. Paul MN, October 2012.
`25. “LED Standards and Measurement Methods”, Light Fair International, Les Vegas
`NV, May 2012.
`26. “Updates for LED and SSL Standards”, Strategies in Lights, Santa Clara CA,
`February 2012.
`27. “New LED Lighting Standards”, ArchLED 2011, Chicago, IL, November 2011.
`28. “LED Lighting Standards in ENERGY STAR® Programs”, The U.S. EPA Energy
`Star Partner Meeting, Charlotte NC, November 2011.
`29. “LED Lighting Standardization Overview”, SPIE Optics + Photonics, Eleventh
`International Conference on Solid State Lighting, San Diego CA, August 2011.
`30. “LED Lighting Standardization”, Light Fair International, Philadelphia PA, May
`2011.
`31. “LED Lighting Standardi