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`UNITED STATES PATENT AND TRADEMARK OFFICE
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`
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`
`
`BEFORE THE PATENT TRIAL AND APPEAL BOARD
`
`
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`
` AUTOLIV ASP, INC., NIHON PLAST CO., LTD., NEATON AUTO
`PRODUCTS MANUFACTURING INC., TAKATA CORP., TK HOLDINGS,
`INC., TOYODA GOSEI CO., LTD., HYUNDAI MOBIS CO., LTD, MOBIS
`ALABAMA, LLC, AND MOBIS PARTS AMERICA LLC,
`Petitioner
`
`v.
`
`AMERICAN VEHICULAR SCIENCES, LLC
`Patent Owner
`
`
`
`
`Case IPR2016-01790
`Patent 9,043,093
`
`
`
`
` SECOND DECLARATION OF MICHAEL NRANIAN
`
`Exhibit 2013
`
`
`
`
`
`Mail Stop PATENT BOARD
`Patent Trial and Appeal Board
`U.S. Patent and Trademark Office
`P.O. Box 1450
`Alexandria, VA 22313-1450
`
`
`
`Case IPR2016-01790 of
`U.S. Patent No. 9,043,093
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`
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`I. INTRODUCTION AND BACKGROUND
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`
`
`I, Michael Nranian, hereby declare as follows:
`
`
`
`1.
`
`I have been retained on behalf of American Vehicular Sciences, LLC
`
`(“AVS”) for the above-captioned inter partes review proceeding. I understand that
`
`this proceeding involves U.S. Patent No. 9,043,093 (the ’093 Patent) titled “Single
`
`Side Curtain Airbag For Vehicles” by David S. Breed and that the ’093 Patent is
`
`currently assigned to AVS.
`
`2.
`
`I have reviewed and am familiar with the specification of the ’093
`
`Patent. I understand that the ’093 Patent is a divisional of U.S. patent application
`
`Ser. No. 11/131,623 filed May 18, 2005 now U.S. Pat. No. 7,481,453 which is a
`
`continuation-in-part (CIP) of U.S. patent application Ser. No. 10/043,557 filed Jan.
`
`11, 2002, now U.S. Pat. No. 6,905,135, which is a CIP of U.S. patent application
`
`Ser. No. 09/925,062 filed Aug. 8, 2001, now U.S. Pat. No. 6,733,036, which is a
`
`CIP of U.S. patent application Ser. No. 09/767,020 filed Jan. 23, 2001, now U.S.
`
`Pat. No. 6,533,316, which is a CIP of U.S. patent application Ser. No. 09/073,403
`
`filed May 6, 1998, now U.S. Pat. No. 6,179,326, which is a CIP of U.S. patent
`
`application Ser. No. 08/571,247 filed Dec. 12, 1995, now U.S. Pat. No. 5,772,238;
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`
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`1
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`Case IPR2016-01790 of
`U.S. Patent No. 9,043,093
`and 2) U.S. patent application Ser. No. 10/974,919 filed Oct. 27, 2004, now U.S.
`
`Pat. No. 7,040,653. I also understand that all of the above applications and patents,
`
`and any applications, publications and patents mentioned within the ‘093 Patent,
`
`are incorporated in the ‘093 Patent by reference in their entirety and made a part of
`
`the ‘093 Patent.
`
`3.
`
`I understand that the ’093 Patent has been provided as Exhibit 1001. I
`
`will cite to the specification using the following format: (’093 Patent, 1:1-10). This
`
`example citation points to the ’278 Patent specification at column 1, lines 1-10.
`
`4.
`
`I have also reviewed and am familiar with the following documents,
`
`among others (all of which are incorporated by reference into this Declaration in
`
`their entireties):
`
`Paper /
`Exhibit #
`Petition
`1001
`
`1002
`1003
`
`1004
`
`1005
`
`1006
`
`Description
`
`Petition for Inter Partes Review (dated September 14, 2016) (Petition)
`Breed, U.S. Patent No. 9,043,093, “Single Side Curtain Airbag For
`Vehicles” (issued May 26, 2015) (’093 Patent)
`File History of the ‘093 Patent
`Declaration of Stephen W. Rouhana, Ph.D. (dated September 13,
`2016) (Rouhana Declaration)
`Breed et al. , US Patent No. 5,772,238, “Efficient Airbag Module”
`(issued June 30, 1998) (‘238 Patent)
`Leising et al., U.S. Patent No. 3,897,961, “Inflatable Restraint
`Apparatus” (issued August 5, 1978) (‘961 Patent)
`Lau et al., U.S. Patent No. 5,273,309, “Air Bag For Side Impact”
`(issued December 28, 1993) (‘309 Patent)
`
`
`
`2
`
`
`
`1007
`
`1008
`
`1009
`
`1010
`
`1011
`
`1012
`
`1014
`
`1015
`
`Case IPR2016-01790 of
`U.S. Patent No. 9,043,093
`Davis et al., US Patent No. 5,269,561, “Vented Gas Passenger Side
`Air Bag Inflator (issued December 14, 1993) (‘561 Patent)
`Daniel, U.S. Patent No. 5,540,459 “Roof Rail Mounted Air Bag
`Assembly” (issued July 30, 1996) (‘459 Patent)
`Kaji et al., U.S. Patent No. 5,222,761, “Airbag Restrain System”
`(issued June 29, 1993) (‘761 Patent)
`Steffens et al., U.S. Patent No. 5,524,924, “Method and Apparatus for
`Restraining an Occupant of a Vehicle Upon a Side Impact Against a
`Vehicle” (issued June 11, 1996) (‘924 Patent)
`Suzuki et al., U.S. Patent No. 4,021,058, “Safety Bag Device for
`Vehicle” (issued May 3, 1977) (‘058 Patent)
`Paxton et al., U.S. Patent No. 4,998,751, “Two-Stage Automatic Gas
`Bag Inflator Using Igniter Material to Delay Second Stage Ignition”
`(issued March 12, 1991) (‘751 Patent)
`1013 Marlow, U.S. Patent No. 3,966,225, “Inflating Device with Self-
`Contained Propellant Gas Generating Cartridge” (issued June 29,
`1976)(‘225 Patent)
`Karlow et al, U.S Patent No. 5,588,672 “Side Impact Head Restrain
`With Inflatable Deployment” (issued December 31, 1996) (‘672
`Patent)
`Kithil, U.S. Patent No. 5,366,241 “Automobile Air Bag System”
`(issued November 22, 1994)(‘241 Patent)
`1016 Wilfert, U.S. Patent No. 3,510,150 “Inflatable Cushion Installation for
`Increasing the Safety of Vehicle Passengers” (issued May 5, 1970)
`(‘150 Patent)
`Clark, SAE 650952 “Human Transportation Fatalities and Protection
`Against Rear and Side Crash Loads by the Airstop Restraint”
`(Published October 20, 1965)(SAE 650952)
`Karlow et al., SAE 940804 “Development of a New Downsized
`Airbag System for Use in Passenger Vehicles” (Published March 1,
`1994)(SAE 940804)
`2002 Webster’s New Collegiate Dictionary,
`G & C Merriam Co. 1981
`The American Heritage College Dictionary, Third Edition, Houghton
`Mifflin Company, 1993
`
`1017
`
`1018
`
`2003
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`
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`3
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`
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`2004
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`2006
`
`2007
`
`2008
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`Case IPR2016-01790 of
`U.S. Patent No. 9,043,093
`Transcript of deposition of Dr. Prasad, the expert for the petitioner in
`IPR2016-00364.
`Recommended Procedures For Evaluating Occupant Injury Risk From
`Deploying Side Airbags, The Side Airbag Out-of-Position Injury
`Technical Working Group (A joint project of Alliance, AIAM, AORC,
`and IIHS), Adrian K. Lund (IIHS), Chairman, First Revision – July
`2003.
`Injury and Intrusion In Side Impacts and Rollovers, Charles E.
`Strother, Gregory C. Smith, Michael B. James, and Charles Y. Warner,
`Collision Safety Engineering, Orem, UT, 1984
`Side Air Bag Out-Of-Position Testing Of Recent Model Year
`Vehicles, Allison E. Louden, National Highway Traffic Safety
`Administration, United States, Paper Number: 07-213.
`2009 Mr. Nranian CV
`2010
`49 Fed. Reg. 28962 (July 17, 1984)
`2011
`https://www.mitsubishitechinfo.com/epacarb/SeatBeltInstallationInstr
`uctions.pdf
`Graebe, U.S. Patent No. 3,747,952 “Protective Device” (issued July
`24, 1973) (‘952 Patent)
`Declaration Under 37 C.F.R. Section 1.132 of Louis R. Brown, dated
`October 31, 2007, Single Side Curtain Airbag for Vehicles. (Included
`in ‘093 Prosecution History) (Brown Declaration)
`SECOND DECLARATION OF MICHAEL NRANIAN
`DEPARTMENT OF TRANSPORTATION National Highway Traffic
`Safety Administration 49 CFR Parts 571 and 585 Docket No. NHTSA-
`2011-0004 RIN 2127-AK23 Federal Motor Vehicle Safety Standards,
`Ejection Mitigation; Phase-In Reporting Requirements,
`TP-226-00 MAR 01 2011 U.S. DEPARTMENT OF
`TRANSPORTATION NATIONAL HIGHWAY TRAFFIC SAFETY
`ADMINISTRATION LABORATORY TEST PROCEDURE FOR
`FMVSS No. 226 EJECTION MITIGATION
`Notice of Proposed Rulemaking FMVSS No. 226 Ejection Mitigation
`Office of Regulatory Analysis and Evaluation November 2009
`Federal Register / Vol. 78, No. 174 / Monday, September 9, 2013 /
`Rules and Regulations
`
`2012
`
`1002
`
`2013
`2014
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`2015
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`2016
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`2017
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`
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`4
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`2018
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`2019
`2020
`2021
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`2022
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`2023
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`2024
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`2025
`2026
`2027
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`2028
`2029
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`2030
`2032
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`2034
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`2035
`2036
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`Case IPR2016-01790 of
`U.S. Patent No. 9,043,093
`U.S. Department of Transportation National Highway Traffic and
`Safety Administration NHTSA DOT HS 811822 January 2014
`Updated Estimates of Fatality Reduction by Curtain and Side Air Bags
`in Side Impacts and Preliminary Analyses of Rollover Curtains.
`http://www.vroomgirls.com/all-about-airbags/
`GM Service Technical College First Responder Guide
`Buying a Safer Car 2004 Valuable Information on: Crash Tests,
`Rollover Ratings and Safety Features Buying a Safer Car 2004 DOT
`HS 809 546
`http://www.jdpower.com/cars/articles/tips-advice/understanding-air-
`bags
`SIDE AIR BAG OUT-OF-POSITION TESTING OF RECENT
`MODEL YEAR VEHICLES, Allison E. Louden National Highway
`Traffic Safety Administration United States Paper Number: 07-213.
`
`Effectiveness of Rollover‐Activated Side Curtain Airbags in Reducing
`
`Fatalities in Rollovers by Jeya Padmanaban, Matthew Fitzgerald,
`IRC-12-16 IRCOBI Conference 2012
`http://www.howsafeisyourcar.com.au/Curtain-Airbags
`Deposition Transcript of Dr. Rouhana
`Rollover-Activated Curtain Airbags— Past, Present, and Future
`Jennifer K. Jousma, Esq. Ford Motor Company, Stacy M. Imler,
`Ph.D., P.E. Exponent, Inc.
`http://www.iihs.org/iihs/ratings/ratings-info/side-test
`IIHS CRASH REPORT 2004 TOYOTA 2004 W-0 SIDE AIRBAGS
`CES0316
`Scholan Vehicle Photos
`IIHS CRASH TEST REPORT 2004 TOYOTA CAMRY W
`AIRBAGS CES0315
`http://www.iihs.org/iihs/sr/statusreport/article/46/4/4 Ejection Rule
`Could Change Side Airbags
`http://www.iihs.org/iihs/sr/statusreport/article/49/4/3
`IIHS Most small pickups get 'dismal' ratings in IIHS side tests
`IIHS Side ratings of small pickups disappoint
`(these are combined as one exhibit)
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`
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`5
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`Case IPR2016-01790 of
`U.S. Patent No. 9,043,093
`U.S. Department of Transportation National Highway Traffic and
`Safety Administration NHTSA DOT HS 812069 January 2015 Lives
`Saved by Vehicle Safety Technologies and Associated Federal Motor
`Vehicle Safety Standards, 1960 to 2012 Passenger Cars and LTVs
`With Reviews of 26 FMVSS and the Effectiveness Of Their
`Associated Safety Technologies in Reducing Fatalities, Injuries, and
`Crashes.
`2004 NHTSA Safety Features Chart BASC_2004 Crash Test Results
`& Safety Features Chart
`http://www.iihs.org/iihs/topics/t/airbags/topicoverview
`DOT HS 810 748 January 2007 NHTSA Technical Report An
`Evaluation of Side Impact Protection FMVSS 214 TTI(d)
`Improvements and Side Air Bags
`
`I have been asked to provide my technical review, analysis, insights,
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`2037
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`2038
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`2039
`2040
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`5.
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`and opinions regarding the ’093 Patent and the above-noted references that form
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`the basis for the grounds of unpatentability set forth in the Petition and the
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`Institution Decision.
`
`A. Qualifications
`
`
`
`6. My academic background is in engineering. I received a Bachelor of
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`Science Degree in Chemical Engineering from Wayne State University in 1984. I
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`received a Master of Science in Electrical Engineering from Wayne State
`
`University in 1991. I received another Bachelor of Science Degree from Wayne
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`State University in 1993, this time in Electrical and Computer Engineering. I also
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`received a Juris Doctor Degree from Wayne State University in 1999. I also
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`received a Master of Business Administration from the University of Michigan in
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`
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`6
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`Case IPR2016-01790 of
`U.S. Patent No. 9,043,093
`2002. I also am a licensed Professional Engineer, Certified Project Management
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`Professional, as well as a Lean Six Sigma Black Belt certified through the
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`American Society for Quality and the International Quality Federation.
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`7.
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`I have extensive industry experience in the automotive industry for
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`multiple companies. More specifically, I have experience in side airbags and
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`inflatable curtains components and safety devices for use in automobiles, as well as
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`designing the systems for incorporation into automobiles.
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`8.
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`A copy of my curriculum vitae is attached hereto as Exhibit 2009 and
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`incorporated by reference. My curriculum vitae list cases on which I have testified
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`as an expert in the prior four years. I have not authored any publications that have
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`been released to the public, over the prior ten years.
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`9.
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`In my previous position, I worked as a contractor for the U.S. Army,
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`for the Chief Scientist’s Office, in the Tank and Automotive Research,
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`Development and Engineering Center (TARDEC) in Warren, Michigan. I recently
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`started another position working as the science and technology lead in cyber
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`security for the U.S. Army at this same location.
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`10. Prior to my employment with the Army, I worked as a design
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`engineer and engineering manager in the automotive industry from 1985 to 2007.
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`This included experience at Ford, General Motors, and Allied Signal. I worked at
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`Case IPR2016-01790 of
`U.S. Patent No. 9,043,093
`Allied Signal from 1992 to 1993, General Motors from 1993 to 1995, and Ford
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`Motor Company from 1985 to 1992, and from 1995 to 2007.
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`11. While at Allied Signal and General Motors I worked as a Senior
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`Project Engineer, where my work included the design and development of
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`automotive safety systems and components for various different types of
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`automotive applications. This included testing and development of airbag systems,
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`sensing systems and components for active and passive safety, vehicle diagnostics,
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`status, displays, and warnings to the driver and vehicle occupants. This also
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`included vehicle crash and safety system component and system development, as
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`well as electrical system architectures including message, data, status, and warning
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`prioritization and the transmission and display of information to vehicle users and
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`occupants across different types of communication channels (including CAN, LIN,
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`and other vehicle network architectures and busses).
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`12. Areas of my work included airbags, seat belts, sensors, and vehicle
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`crash performance and occupant injury mitigation, active and passive sensing
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`systems which can be used in the vehicle interior or exterior, including the design
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`and development of sensing components and systems
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`that
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`incorporate
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`electromagnetic wave sensing (including but not limited to vision, camera, radar,
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`LIDAR, infrared ultraviolet, and night vision) as well as acoustical sensing. Areas
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`Case IPR2016-01790 of
`U.S. Patent No. 9,043,093
`of my work also specifically included automotive vehicle safety systems, airbags,
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`seatbelts, interior and exterior occupant protection systems, sensing systems,
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`electrical systems and architectures, electrical and data communication protocols,
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`vehicle system diagnostics, warnings, vision systems, occupant and infant/child
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`seat sensing and detection systems, out of position occupant detection, electrical
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`and safety system diagnostics, occupant ergonomic evaluations, user and occupant
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`audio and visual interfaces and displays, infrared, vision, camera, sonar, acoustic,
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`radar, LIDAR, sensing and detection technologies and systems.
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`13.
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`I conducted numerous system and component evaluations, laboratory
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`tests, supplier and technology assessments, quality and reliability evaluations, as
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`well as developed design validation plans and reports and failure modes and effects
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`analyses to design and develop automotive safety, airbag, seatbelt, and occupant
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`injury mitigation systems, sensing, and electrical systems, including the integration
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`of sensor fusion technologies, and the components and systems for information and
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`diagnostics storage and communication and retrieval, computer, microprocessor
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`and interface architectures, and automotive electrical system architectures and
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`communication protocols. I also ran numerous crash and sled tests involving
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`airbag system testing, development, and design.
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`Case IPR2016-01790 of
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`14. My responsibilities also included technology assessments and proper
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`supplier and sourcing evaluation and selection, quoting and bidding, and the
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`overall source selection for numerous technologies. My responsibilities also
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`included ensuring compliance with Federal Motor Vehicle Safety Standards, ECE
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`regulations, Industry Standards, Corporate Standards, and Due-Care Requirements.
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`15.
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`I worked on the development of airbag and seat belt systems,
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`occupant kinematic evaluation, vehicle crash performance in frontal, side, rear, and
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`rollover accidents, occupant injury mitigation, occupant sensing and infant/child
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`seat detections systems, including infrared, RFID, vision, camera, laser, LED,
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`beam, acoustical, ultrasonic, capacitance, inductance, seat weight sensing, and
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`other types of sensing technologies. I also worked on sensing systems for various
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`automotive applications, including sensor fusion technologies, for image and
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`object detection, discrimination, and identification and the appropriate status
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`notifications to vehicle drivers and occupants. My work included analyses
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`involving statistical information from NASS and FARS databases. Also, for
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`example, General Motors applied for and was granted a Statutory Invention
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`Registration for rear facing infant seat occupant detection using a technology that I
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`conceived of and developed.
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`U.S. Patent No. 9,043,093
`16. While at Ford, my experience included working as a Product Design
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`Engineer, a Technical Specialist, a Design Analysis Engineer, and an Engineering
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`Manager. My work included the design and development of automotive safety
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`systems and components for various different types of automotive applications.
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`This also extensively involved the testing and development of sensing systems and
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`components for active and passive safety, vehicle diagnostics, status, displays, and
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`warnings to the driver and vehicle occupants, as well as the development of vehicle
`
`electrical system architectures including message, data, status, and warning
`
`prioritization and the transmission and display of information to vehicle users and
`
`occupants across different types of communication channels (including CAN and
`
`other vehicle network architectures and busses). This also extensively involved
`
`active and passive sensing systems which can be used in the vehicle interior or
`
`exterior, including systems that incorporate electromagnetic wave sensing
`
`(including but not limited to vision, camera, radar, LIDAR, infrared, ultraviolet,
`
`and night vision), as well as acoustical, automotive, sensing and electrical systems
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`and architectures, electrical and data communication protocols, as well as the
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`appropriate notifications to vehicle drivers, occupants, and service personnel.
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`17.
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`I worked extensively on vehicle system diagnostics and fault codes
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`analyses, information and diagnostics communication and retrieval from vehicle
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`modules and systems, vehicle parameter information communication and retrieval
`
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`from vehicle modules, sensor fusion technologies assessments and integration,
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`vision systems, image and object detection and identification, occupant and
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`infant/child seat sensing systems, occupant and out of position occupant sensing
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`and detection, critical parameter communication storage and retrieval, warnings,
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`occupant ergonomic evaluations, user and occupant audio and visual interfaces and
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`displays, vehicular compatibility analyses and assessments, storage and
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`communication of critical parameter information related to automotive vehicle
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`systems as well as the interfaces involved in communication and retrieval of this
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`information. This included communication of sensor and vehicle information
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`through automotive vehicle computer, microprocessor, and electrical systems and
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`architectures, electrical and data communication protocols and interfaces, vehicle
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`electrical networks and network interfaces.
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`18. My work included and I have direct experience in side airbags and
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`inflatable curtains systems. This includes all aspects of testing (including out of
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`position occupant testing, standards requirements, and criteria), development,
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`design, and implementation, as well as seating, structural, sheet metal, door, B-
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`Pillar, A-Pillar, C-Pillar, roof rail, seats and interior trim, sensing and electrical
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`system components, as well as all the testing, design, development, and
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`verification of all of the components and systems necessary for implementation of
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`these systems in the vehicle. As part of my experience - I chaired meetings with
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`external personnel (including extensive representation from the supply base) and
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`internal personnel including representatives of design engineers and technical
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`experts from all aspects of these components and systems. I developed and
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`authored the design verification plans and reports and failure modes and effects
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`analyses for side airbag and inflatable curtain systems and components. I also
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`developed the testing specifications and requirements, and directed how these tests
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`are to be performed, as well as the standards and requirements for acceptable
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`performance. I worked with all of the external suppliers for these systems and
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`components, as well as the side airbag/inflatable curtain suppliers to ensure proper
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`system performance to the testing requirements and specifications. I conducted
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`numerous sled and crash tests, and I also conducted design, testing, analyses, and
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`crash testing to ensure overall system and component level performance. I also
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`have investigated several field events involving side airbags and inflatable
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`curtains; I have served as an expert witness and corporate representative for side
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`airbag and inflatable curtain systems in my career. (I also have investigated
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`numerous automotive safety system field events, and served as a corporate
`
`representative and expert witness in numerous, airbag, seat belt, sensing and
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`electrical system, as well as other automotive safety system matters.)
`
`19. My work included the design and development of these automotive
`
`safety components and systems to meet corporate and industry requirements and
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`
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`U.S. Patent No. 9,043,093
`standards. My work also involved systems utilizing infrared, vision, camera, sonar,
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`acoustic, radar sensing, monitoring, and detection technologies and systems for
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`vehicle occupants and appropriate sensor information signal discrimination and
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`identification.
`
`20.
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`I conducted numerous system and component evaluations, laboratory
`
`tests, supplier and technology assessments, quality and reliability evaluations, as
`
`well as developed design validation plans and reports and failure modes and effects
`
`analyses, corporate standards and specifications, and design guidelines, to design
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`and develop sensing systems, as well as the related computer, microprocessor, and
`
`electrical/electronic architecture networks, data and critical parameter storage,
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`retrieval, transfer, notification and communication systems.
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`21. During my career as an engineer and manager in the automotive
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`industry, with both OEMs and the supply base, I developed specifications and
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`requirements, and also oversaw tier one, tier two, and sub-suppliers, as well as
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`their manufacturing operations and facilities, to ensure compliance to these
`
`requirements. (I am also Lean Six Sigma Black Belt certified through the ASQ and
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`IQF.) Part of my responsibilities included side airbag system, inflatable curtain,
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`and safety system components, and also ensuring durability and reliability of
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`component and system performance over long term vehicle. I have extensive
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`experience in establishing standards and requirements, testing, design, and
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`development of airbag and inflatable curtain systems and components, as well as
`
`compliance to standards, requirements, and specifications, including all production
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`validation testing, in-process testing, and also for ensuring durability and reliability
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`over long-term vehicle life. This includes of the extensive testing, design, and
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`development that is especially critical for the side airbag system and inflatable
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`curtain components and systems that will potentially be relied upon to mitigate
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`occupant injury or death in an accident, and also to ensure proper system
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`performance for Out of Position (OOP) occupants (including infants, children, and
`
`occupants of all sizes and in various positions.
`
`22. My work also involved analyses of information from NASS and
`
`FARS databases. My responsibilities also included technology assessments and
`
`proper supplier and sourcing evaluation and selection, quoting and bidding, and the
`
`overall source selection for numerous technologies. My responsibilities also
`
`involved extensive inspection, investigation, and analysis of field events involving
`
`automotive safety systems, analysis of occupant kinematics and injury causation,
`
`and testifying as an expert witness and corporate representative in litigation
`
`matters. For example, I have personally inspected and evaluated numerous field
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`events involving the performance of side airbags and inflatable curtains. I also
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`reported back my findings to the engineering and product development activities
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`U.S. Patent No. 9,043,093
`for continuous product improvements. My responsibilities also included ensuring
`
`compliance with Federal Motor Vehicle Safety Standards, ECE regulations,
`
`Corporate Standards, Industry Standards, and Due-Care Requirements.
`
`23. Subsequent to my employment at Ford, I worked as a Systems
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`Engineer for Raytheon and General Dynamics, where I developed defense systems
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`for military vehicles. Part of my responsibilities also included technology
`
`assessments and selection. This includes conducting and leading technology and
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`sourcing trade studies and analyses using preset requirements for evaluation and
`
`the preparation of the proper documentation to ensure the selected alternatives
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`meet or exceed the requirements and specifications for the components, system,
`
`vehicle, and overall mission system integration requirements as well as Department
`
`of Defense 5000 and 5001 protocols.
`
`24.
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`In my latest current position, I possess an Active Secret Security
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`Clearance. My responsibilities include working with internal scientists, researchers
`
`and technical staff, as well as outside collaborators and universities, to develop
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`technologies, innovation, and inventions for the protection of our soldiers and the
`
`enhancement of our soldiers’ survivability in military vehicles. This includes cyber
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`security, airbag, seat belt, military vehicle interior, and seating occupant injury
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`mitigation technologies and systems, as well as, the development and assessment
`
`
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`16
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`
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`Case IPR2016-01790 of
`U.S. Patent No. 9,043,093
`of vehicle and robotic data communication and electrical system architectures,
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`vision systems, infrared systems, object and image detection, identification,
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`enhancement, notification and display, critical parameter diagnostics and storage,
`
`operating across vehicle data busses as well as cellular and radio networks.
`
`25. My responsibilities include cyber system technologies and security, as
`
`well as seat belts, seats, interior occupant injury mitigation components and
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`systems, front airbags, side airbags, inflatable curtains, frontal rear, and side
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`impact and rollover sensing and injury mitigation technologies, fire protection, as
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`well as, computers, involving camera and vision systems, human interface
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`displays, acoustic, ultrasonic, IR, radar, night vision, and electromagnetic wave
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`sensing, sensor fusion integration, algorithm, and pattern recognition development,
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`sensor information discrimination and identification, robotic systems, Improvised
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`Explosive Device (IED) detection and injury mitigation systems, armor and
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`electromagnetic armor development, electromagnetic wave sensing and frequency
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`determination, Command, Control, Communications, Computers, Intelligence,
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`Surveillance and Reconnaissance (C4ISR) systems development, 360 degree
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`surveillance, active and passive safety system development and occupant injury
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`mitigation.
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`
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`17
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`Case IPR2016-01790 of
`U.S. Patent No. 9,043,093
`26. This also includes 360 degree visual situational awareness systems
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`including electro-optical (e.g., CMOS, CCD) sensors, thermal viewers, and
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`scalable machine
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`interfaces using various operating systems, geographic
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`information systems, image enhancement and recognition, image and object
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`detection discrimination and identification, augmented displays with friend and foe
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`target enhancement for location recognition and identification, GPS and mapping
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`location systems (including the use of differential GPS, pseudolites, repeaters, base
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`stations, relays), mobile data terminals, split-screen augmented information and
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`visual displays and controllers, on-board vehicle displays as well as soldier
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`handheld devices, and the transfer of this information across satellite systems to
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`command centers to soldiers and vehicles in the field, as well as the real-time
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`communication of this information across command systems through satellite,
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`cellular, radio frequency, wireless mediums, and related techniques.
`
`27.
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`I have extensive experience with different types of automotive and
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`vehicle sensing systems and safety systems, as well as the discrimination of sensor
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`information for implementation of active and passive safety devices. I also have
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`extensive experience in the establishment of safety requirements, the testing and
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`development of components and systems to meet these requirements, the design
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`and development of these components and systems per vehicle specific
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`characteristics, as well as the associated data and communication interfaces and
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`
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`18
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`
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`Case IPR2016-01790 of
`U.S. Patent No. 9,043,093
`systems, including computer, microprocessor, wireless and physical hardware
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`electrical and system architectures. I also have extensive experience in the
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`development of automotive active and passive safety systems for injury prevention
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`and mitigation, proper sensor parameter and information discrimination for these
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`active and passive safety systems, and the proper overall design of these safety
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`systems and the components integrated into these systems, for compliance to
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`rigorous FMVSS, regulatory, corporate, and Due-Care, requirements, standards,
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`and specifications.
`
`28.
`
`I have extensive experience
`
`in establishing standards and
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`requirements, testing, design, and development of airbag and inflatable curtain
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`systems and components, as well as compliance to standards, requirements, and
`
`specifications, including all production validation testing, in-process testing, and
`
`also for ensuring durability and reliability over long-term vehicle life. This
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`includes the extensive testing, design, and development that is especially critical
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`for the side airbag system and inflatable curtain components and systems that will
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`potentially be relied upon to mitigate occupant injury or death in an accident, and
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`also to ensure proper system performance for Out of Position (OOP) occupants
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`(including infants, children, and occupants of all sizes and in various positions.
`
`
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`19
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`
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`Case IPR2016-01790 of
`U.S. Patent No. 9,043,093
`I have testified as an expert in over 20 cases involving automotive
`
`29.
`
`airbags, inflatable curtains, seat belts, occupant injury mitigation, occupant
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`kinematics evaluation and injury causation, forensic analyses and system and
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`component level evaluation, sensors, sensing systems, and safety systems, as well
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`as diagnostic and information systems, and the discrimination and communication
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`of critical sensor parameter information. I also have direct experience in this field
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`beginning in 1987 until present, and was working as an engineer in the field as of
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`before, during, and after the priority date of the ‘093 Patent.
`
`30.
`
`I am a member of the Project Management Institute, American
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`Society for Quality, International Quality Federation, and the Forensic Expert
`
`Witness Association.
`
`B. Compensation
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`31. My work on this case is being billed at a rate of $350.00 per hour,
`
`with reimbursement for actual expenses. My compensation is not contingent upon
`
`the outcome of this inter partes review.
`
`C. My Understanding of Legal Standards
`
`32.
`
`It is my understanding that the claims of the ’093 Patent are only
`
`challenged under obviousness grounds, and not anticipation grounds. However, as
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`background, it is my understanding that a claim may be “anticipated” and thus
`
`
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`20
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`Case IPR2016-01790 of
`U.S. Patent No. 9,043,093
`unpatentable if a single prior art reference teaches each
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