`
`UNITED STATES PATENT AND TRADEMARK OFFICE
`
`———————
`
`BEFORE THE PATENT TRIAL AND APPEAL BOARD
`
`———————
`
`
`
`APPLE INC.,
`Petitioner,
`
`v.
`
`UNILOC USA Inc.,
`Patent Owner
`
`———————
`
`
`Declaration of Joseph A. Paradiso, PhD
`under 37 C.F.R. § 1.68
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`
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`Apple v. Uniloc USA
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`Page 1 of 77
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`Apple Ex. 1003
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`Inter Partes Review of U.S. 8,712,723
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`TABLE OF CONTENTS
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`I.
`
`INTRODUCTION ........................................................................................... 1
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`II. QUALIFICATIONS AND PROFESSIONAL EXPERIENCE ...................... 2
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`III. LEVEL OF ORDINARY SKILL IN THE ART ............................................. 8
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`IV. RELEVANT LEGAL STANDARDS ............................................................. 9
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`A. Anticipation ............................................................................................ 10
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`B. Obviousness ........................................................................................... 10
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`V. OVERVIEW OF THE ‘723 PATENT .......................................................... 12
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`A. Summary of the Patent ........................................................................... 12
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`B. Prosecution History of the ‘723 Patent .................................................. 15
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`VI. BROADEST REASONABLE INTERPRETATION ................................... 17
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`A. “dominant axis” ..................................................................................... 17
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`B. “cadence window” ................................................................................. 18
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`VII.
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`IDENTIFICATION OF HOW THE CLAIMS ARE UNPATENTABLE .... 19
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`A. State of the Art at the Time of the ‘723 Patent ...................................... 19
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`B. Claims 1, 3, and 14 are obvious over Fabio in view of Pasolini ........... 21
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`1. Summary of Fabio .......................................................................... 21
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`2. Summary of Pasolini ...................................................................... 24
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`3. Reasons to Combine Fabio and Pasolini ........................................ 27
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`4. Detailed Analysis ........................................................................... 30
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`C. Claims 4 and 19 are obvious over Fabio in view of Pasolini, further in
`view of Richardson ................................................................................ 54
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`1. Summary of Richardson ................................................................. 54
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`2. Reasons to combine Fabio, Pasolini, and Richardson ................... 57
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`i
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`3. Detailed Analysis ........................................................................... 61
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`VIII. CONCLUSION .............................................................................................. 74
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`ii
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`I.
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`INTRODUCTION
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`1.
`
`I am making this declaration at the request of Apple Inc. in the matter
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`of the inter partes review of U.S. Patent No. 8,712,723 (“the ‘723 Patent”) to
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`Kahn, et al.
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`2.
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`I am being compensated for my work in this matter at the rate of
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`$500/hour. I am also being reimbursed for reasonable and customary expenses
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`associated with my work and testimony in this investigation. My compensation is
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`not contingent on the outcome of this matter or the specifics of my testimony.
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`3.
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`I have been asked to provide my opinions regarding whether claims 4
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`and 19 of the ‘723 Patent are unpatentable, either because they are anticipated or
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`would have been obvious to a person having ordinary skill in the art (“POSITA”)
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`at the time of the alleged invention, in light of the prior art. It is my opinion that all
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`of the limitations of claims 4 and 19 would have been obvious to a POSITA.
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`4.
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`In the preparation of this declaration, I have studied:
`
`a)
`
`b)
`
`c)
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`The ‘723 Patent, Ex.1001;
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`The prosecution history of the ‘723 Patent, Ex.1002;
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`U.S. Patent No. 7,463,997 to Fabio Pasolini et al. (“Pasolini”),
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`Ex.1005;
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`d)
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`U.S. Patent No. 7,698,097 to Fabio Pasolini et al. (“Fabio”),
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`Ex.1006;
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`e)
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`U.S. Patent No. 5,976,083to Richardson et al. (“Richardson”),
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`Ex.1007; and
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`f)
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`Excerpts from Robert L. Harris, INFORMATION GRAPHICS: A
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`COMPREHENSIVE ILLUSTRATED REFERENCE (1996) (“Harris”),
`
`Ex.1011.
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`5.
`
`In forming the opinions expressed below, I have considered:
`
`a)
`
`The documents listed above, and
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`b) My own knowledge and experience based upon my work in the
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`field of MEMS (micro-electro-mechanical) devices and body
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`motion sensing systems, as described below.
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`II. QUALIFICATIONS AND PROFESSIONAL EXPERIENCE
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`6. My complete qualifications and professional experience are described
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`in my Curriculum Vitae, a copy of which can be found in Ex.1004. The following
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`is a brief summary of my relevant qualifications and professional experience.
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`7.
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`As shown in my curriculum vitae, I have devoted my career to various
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`fields of physical, electrical, and computer science with more than two decades
`
`focused on embedding sensing, including wearable and wireless sensors. I have
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`twenty years of experience in wearable devices and computing, during which I
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`invented and fielded many types of wearable activity tracking devices that utilized
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`a variety of power management and wakeup protocols.
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`8.
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`I am the Alexander W. Dreyfoos (1954) Professor in Media Arts and
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`Sciences at the Massachusetts Institute of Technology (MIT), where I direct the
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`Responsive Environments Group, which explores how sensor networks augment
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`and mediate human experience, interaction and perception. I also have served as
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`co-director of the Things That Think Consortium, a group of MIT Media Lab
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`researchers and industrial partners focused on the future of embedded computation
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`and sensing, and am now serving as our Associate Department Head.
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`9.
`
`I received my B.S. in electrical engineering and physics summa cum
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`laude from Tufts University in 1977 and my Ph.D. in physics from MIT in 1981.
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`From 1981 to 1984, I did post-doctoral research at the Swiss Federal Institute of
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`Technology (ETH) in Zurich, working on sensor technology for high-energy
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`particle physics. From 1984-1994, I was a physicist at the Draper Laboratory in
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`Cambridge, Massachusetts, where, as a member of the NASA Systems and
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`Advanced Sensors and Signal Processing Directorates, my research included
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`spacecraft control systems and sensor technology for both sonar systems and high-
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`energy physics. I also worked at Draper Lab as an undergraduate (1974-1978) on
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`software for advanced strategic inertial measurement units and guidance systems.
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`From 1992-1994, I directed the development of precision alignment sensors for the
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`GEM muon detector at the Superconducting Supercollider, and worked on design
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`of particle detectors at the CERN Large Hadron Collider (LHC).
`
`10.
`
`I joined the MIT Media Lab in 1994. The MIT Media Lab was
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`founded in 1985 to actively promote a unique, anti-disciplinary culture that focuses
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`on research projects joining different technological and academic fields. As
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`described further below, researchers at the MIT Media Lab have pioneered areas
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`such as wearable computing, tangible interfaces, and affective computing.
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`Examples of products or platforms spun off Media Lab research include electronic
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`ink readers such as the Amazon Kindle and Barnes & Noble Nook, the popular
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`video game Guitar Hero, the MPEG-4 structured audio format, the first bionic
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`lower-leg system for amputees, wireless mesh networks developed by Nortel, and
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`the Mercury RFID Reader, commercialized by spin-off ThingMagic. Today, the
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`Lab is supported by more than 70 sponsors/members, comprising some of the
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`world’s leading corporations and representing the fields of electronics,
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`entertainment, fashion, health care, greeting cards, and telecommunications, among
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`others. Faculty members, research staff, and students at the Lab work in more than
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`25 research groups on more than 350 projects that range from digital approaches
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`for treating neurological disorders, to a stackable, electric car for sustainable cities,
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`to advancing imaging technologies that can see around corners.
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`11. Upon joining the Media Lab, I focused on developing new sensing
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`modalities for human-computer interaction, then by 1997 evolved my research into
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`wearable wireless sensing and distributed sensor networks. This work anticipated
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`and influenced transformative products and industries that have blossomed in
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`recent years. For example, the sensor-laden wireless shoe I developed for
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`interactive dance in 1997 is recognized as a watershed in the field of wearable
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`wireless sensing and was an inspiration for the Nike+, one of the very first activity
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`trackers and the first commercial product to integrate dynamic music with
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`monitored exercise. My team went on to pioneer clinical gait analysis with
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`wearable wireless sensors in collaboration with the Massachusetts General
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`Hospital (MGH) in 2002, and then broke new ground in sports medicine with
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`another MGH collaboration that developed an ultra-wide-range wireless inertial
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`measurement unit system for evaluating professional baseball pitchers in 2007. My
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`team and I have also been leaders on wearable sensing for Human-Computer
`
`Interfaces, over the past decade fielding, for example, wristbands to measure finger
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`position, wristbands to enable pointing interaction and control of heating and
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`lighting, and even a wireless touchpad mounted on a fingernail.
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`12. Leading to over 300 publications, 17 issued patents, and a string of
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`awards in the Pervasive Computing, Human Computer Interaction, and sensor
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`network communities, my research has become the basis for widely established
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`curricula. Many of these publications are directed to wearables. I have also advised
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`over 55 graduate (MS and PhD) theses for students who have done their work in
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`my research group, and served as a reader for roughly 100 MS and PhD students in
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`other groups and at other universities. Some of my own students have gone on to
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`prominence in their own careers that have involved wearables—for example, Dr.
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`Nan-Wei Gong (PhD 2013) was the R&D lead of Project Jacquard (integrating
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`electronics and textiles) at Google ATAP before becoming founder and CEO of
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`her own companies with a wearable focus ‘Circular2’ and ‘Figure8,’ and Dr. Stacy
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`Morris Bamberg (PhD 2004) became a tenured professor at the University of Utah
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`doing wearable gait analysis, then started a company in this space (Veristride). I
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`have given over 300 invited talks, panel appearances, and seminars worldwide,
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`recently keynoting on topics relating to ubiquitous sensing and the Internet of
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`Things (IoT) for prestigious venues ranging from the Sensors Expo (the main
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`industrial sensors conference) to the World Economic Forum. I am frequently
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`asked to address industrial groups on wearables and IoT, and often engage with the
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`Media Lab’s extensive list of industrial partners in strategizing these areas.
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`13.
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`I belong to and participate in various professional organizations. I am
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`a senior member of the IEEE (Institute of Electrical and Electronics Engineers),
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`and also belong to the ACM (Association for Computer Machinery). I also belong
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`to the APS American Physical Society (the major professional society in physics),
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`and am a senior member in the AIAA (the American Institute of Aeronautics and
`
`Astronautics). Within the IEEE, I belong to the Signal Processing Society, the
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`Controls Society, and the Computer Society. As detailed in my CV, I have served
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`on many Technical Program Committees (TPCs, which solicit, review, and select
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`papers for academic conferences) and journal editorial boards, plus have organized
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`academic conferences in areas such as wireless sensor networks, wearable
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`computing and wearable sensing, human-computer interfaces, ubiquitous
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`computing, etc.
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`14. One of the themes of my research has been on low-power embedded
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`systems and energy harvesting. I have written several well-regarded papers on
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`these topics that well predate the ‘723 Patent—for example, the review article that
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`I wrote for IEEE Pervasive Computing in 2005, ‘Energy Scavenging for Mobile
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`and Wireless Electronics’ has become their most popular article and is widely
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`cited. My work on smart wakeup systems (e.g., as described in my papers such as
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`‘A Framework for the Automated Generation of Power-Efficient Classifiers for
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`Embedded Sensor Nodes’ and ‘CargoNet: A Low-Cost MicroPower Sensor Node
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`Exploiting Quasi-Passive Wakeup for Adaptive Asynchronous Monitoring of
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`Exceptional Events,’ both presented at SenSys 2007), are also of relevance here.
`
`III.
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` LEVEL OF ORDINARY SKILL IN THE ART
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`15.
`
`I understand there are multiple factors relevant to determining the
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`level of ordinary skill in the pertinent art, including (1) the levels of education and
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`experience of persons working in the field at the time of the invention; (2) the
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`sophistication of the technology; (3) the types of problems encountered in the field;
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`and (4) the prior art solutions to those problems.
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`16.
`
`I am familiar with accelerometers (including those found in portable
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`devices such as mobile phones). I am also aware of the state of the art at the time
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`the application resulting in the ‘723 Patent was filed. I have been informed by
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`Apple’s counsel that the earliest alleged priority date for the ‘723 Patent is
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`December 22, 2006. Based on the technologies disclosed in the ‘723 Patent, I
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`believe that a person having ordinary skill in the art (“POSITA”) would include
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`someone who had, at the priority date of the ‘723 Patent, (i) a Bachelor’s degree
`
`in Electrical Engineering, Computer Engineering, Computer Science, or
`
`equivalent training, as well as (ii) approximately two years of experience
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`working in hardware and/or software design and development related to MEMS
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`
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`8
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`(micro-electro-mechanical) devices and body motion sensing systems. Lack of
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`work experience could have been remedied by additional education, and vice
`
`versa. Such academic and industry experience would be necessary to appreciate
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`what was obvious and/or anticipated in the industry and what a POSITA would
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`have thought and understood at the time. Based on this criteria, as of the
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`relevant time frame for the ‘723 Patent, I possessed at least such experience and
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`knowledge of a POSITA, as well as trained many of them by then, hence am
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`qualified to opine on the ‘723 Patent.
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`17. For purposes of this Declaration, in general, and unless otherwise
`
`noted, my statements and opinions, such as those regarding my experience and the
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`understanding of a POSITA generally (and specifically related to the references I
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`consulted herein), reflect the knowledge that existed in the field as of December
`
`22, 2006. Unless otherwise stated, when I provide my understanding and analysis
`
`below, it is consistent with the level of a POSITA prior to the priority date of the
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`‘723 Patent.
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`IV. RELEVANT LEGAL STANDARDS
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`18.
`
`I understand that prior art to the ‘723 Patent includes patents and
`
`printed publications in the relevant art that predate the priority date of the alleged
`
`invention recited in the ‘723 Patent. For purposes of this Declaration, I have been
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`asked to apply December 22, 2006, the earliest alleged priority date, as the priority
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`date.
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`19.
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`I am not an attorney. In preparing and expressing my opinions and
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`considering the subject matter of the ‘723 Patent, I am relying on certain basic
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`legal principles that counsel have explained to me. These principles are discussed
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`below.
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`20.
`
`I understand that a claim is unpatentable if it is anticipated under 35
`
`U.S.C. § 102 or obvious under 35 U.S.C. § 103.
`
`A. Anticipation
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`21.
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`I have been informed by counsel that a patent claim is unpatentable as
`
`anticipated if each element of that claim is present either explicitly or inherently in
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`a single prior art reference. I have also been informed that, to be an inherent
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`disclosure, the prior art reference must necessarily disclose the limitation, and the
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`fact that the reference might possibly practice or contain a claimed limitation is
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`insufficient to establish that the reference inherently teaches the limitation.
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`B. Obviousness
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`22.
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`I have been informed that a claimed invention is unpatentable under
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`35 U.S.C. § 103 if the differences between the invention and the prior art are such
`
`that the subject matter as a whole would have been obvious at the time the
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`invention was made to a person having ordinary skill in the art to which the subject
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`matter pertains. I have also been informed by counsel that the obviousness analysis
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`takes into account factual inquiries including the level of ordinary skill in the art,
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`the scope and content of the prior art, and the differences between the prior art and
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`the claimed subject matter.
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`23.
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`I have been informed by counsel that the Supreme Court has
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`recognized several rationales for combining references or modifying a reference to
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`show obviousness of claimed subject matter. Some of these rationales include the
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`following: (a) combining prior art elements according to known methods to yield
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`predictable results; (b) simple substitution of one known element for another to
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`obtain predictable results; (c) use of a known technique to improve a similar device
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`(method, or product) in the same way; (d) applying a known technique to a known
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`device (method, or product) ready for improvement to yield predictable results; (e)
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`choosing from a finite number of identified, predictable solutions, with a
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`reasonable expectation of success; and (f) some teaching, suggestion, or motivation
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`in the prior art that would have led one of ordinary skill to modify the prior art
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`reference or to combine prior art reference teachings to arrive at the claimed
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`invention.
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`V. OVERVIEW OF THE ‘723 PATENT
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`A.
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`Summary of the Patent
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`24. The ‘723 Patent is directed to “a method of monitoring human
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`activity, and more particularly, to counting periodic human motions such as steps.”
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`Ex.1001, 1:13-15. The monitoring of human activity is performed using “inertial
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`sensors (e.g., accelerometers)” found in commercial electronic devices such as
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`“cellular phones, portable music players, pedometers, game controllers, and
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`portable computers.” Ex.1001, 1:20-26. As noted in the background of the ‘723
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`Patent, “[s]tep counting devices are used to monitor an individual's daily activity
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`by keeping track of the number of steps that he or she takes.” Ex.1001, 1:27-29.
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`The background section also identifies the known problem that “[s]tep counting
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`devices are often confused by motion noise [that] … causes false steps to be
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`measured and actual steps to be missed in conventional step counting devices.”
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`Ex.1001, 1:35-39.
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`25. The claims of the ‘723 Patent are directed to two separate concepts
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`that are alleged improvements over conventional step counting devices. The first
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`concept relates to “assigning a dominant axis with respect to gravity.” See, e.g.,
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`Ex.1001, claim 1. In the ‘723 Patent, the dominant axis is “the axis most aligned
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`with gravity,” which “may change over time (e.g. as the electronic device is
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`rotated).” Ex.1001, 6:20-25. Figure 8 of the ‘723 Patent, reproduced below in part,
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`provides a method for assigning a dominant axis based on taking measurements of
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`acceleration data:
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`
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`Ex.1001, Fig. 8, in part.
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`26. The second concept relates to updating a “cadence window”
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`corresponding to the user’s step cadence. See, e.g., Ex.1001, claim 1. In the’723
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`Patent, “[a] cadence window is a window of time since a last step was counted that
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`is looked at to detect a new step.” Ex.1001, 4:5-7. Figure 6, reproduced below,
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`shows an example method for setting a cadence window, including recognizing a
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`step in the cadence window then adding one to the step count:
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`Ex.1001, Fig. 6.
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`27. The “dominant axis” and “cadence window” concepts claimed in the
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`‘723 Patent were not novel. As shown in this Declaration, (1) U.S. Patent No.
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`7,698,097 to Fabio Pasolini et al. (“Fabio”) describes a validation interval (cadence
`
`window) that is a window of time since a last step was counted that is looked at to
`
`detect a new step and (2) both Fabio and U.S. Patent No. 7,463,997 to Fabio
`
`Pasolini et al. (“Pasolini”) describe detecting steps using a dominant axis of a tri-
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`axial accelerometer, or, in other words, using the axis most influenced by gravity.
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`28. Before the ‘723 Patent was filed, a developer named Fabio Pasolini
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`was actively working on pedometer devices that included the concepts described
`
`and claimed in the ‘723 patent. Mr. Pasolini filed two patent applications (issued as
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`U.S. Patent No. 7,698,097 (“Fabio”) and U.S. Patent No. 7,463,997 (“Pasolini”))
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`before the ‘723 patent was filed. The Pasolini reference describes a pedometer
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`updates the vertical axis with each acquisition of an acceleration sample to take
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`into account variations of the orientation of the pedometer device during use.
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`Ex.1005, 8:20-24. The Fabio reference, on the other hand, describes applying a
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`regularity condition to the detected step data so that a step is counted when it
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`occurs within a “validation interval.” In my opinion, the disclosures provided in
`
`the Fabio and Pasolini references either render obvious each and every element of
`
`the claims discussed below.
`
`B.
`
`Prosecution History of the ‘723 Patent
`
`29. The ‘723 Patent issued on April 29, 2014 from U.S Patent Application
`
`No. 13/018,321 filed on January 31, 2011. The ‘723 Patent is a continuation of
`
`U.S. Application No. 12/694,135, filed on January 26, 2010, which is a
`
`continuation of U.S. Application No. 11/644,455, filed on December 22, 2006.
`
`30.
`
`In a first Office action, the Examiner rejected claims 1, 2, 11, 12, 14,
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`and 16 under 35 U.S.C. 102 (e) as anticipated by U.S. Patent Application
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`Publication No. 2007/0143068 to Fabio Pasolini et al. Ex.1002 at 200. This
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`application later issued as U.S. Patent No. 7,463,997 to Fabio Pasolini et al.
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`(“Pasolini”), and is cited in this Declaration as a secondary reference (Ex.1005).
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`31.
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`In the first Office action, the Examiner identified that Pasolini
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`discloses the claimed features including “assigning a dominant axis based on an
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`orientation of the inertial sensor,” “detecting a change in the orientation of the
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`inertial sensor and updating the dominant axis based on the change,” and “counting
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`periodic human motions by monitoring accelerations relative to the dominant axis
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`based upon acceleration measurements along only the dominant axis to count
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`steps.” Ex.1002, p.201.
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`32.
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`In its response to the first Office action, the Applicant amended the
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`claims to further recite “by counting the periodic human motions when
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`accelerations showing a motion cycle that meets motion criteria within a cadence
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`window” and “updating the cadence window as actual cadence changes.” Ex.1002,
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`p.138-41. The Applicant argued in its response that “Pasolini does not teach or
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`suggest the use of cadence windows, much less the comparison of a motion cycle
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`to a cadence window which is adjusted as the user’s motion is detected.” Ex.1002,
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`p.201.
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`33.
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`In Notice of Allowance, the Examiner quoted the amended claims and
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`indicated that the amended claims were allowable over Pasolini (among others).
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`Ex.1002 p.34-36. However, U.S. Patent No. 7,698,097 to Fabio Pasolini et al.
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`(“Fabio”), which is the primary prior art reference relied on in this Declaration,
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`does not appear to have been cited or otherwise considered by the Examiner during
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`prosecution.
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`VI. BROADEST REASONABLE INTERPRETATION
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`34.
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`It is my understanding that in order to properly evaluate the ‘723
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`Patent, the terms of the claims must first be interpreted. It is my understanding that
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`for the purposes of this inter partes review, the claims are to be given their
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`broadest reasonable interpretation in light of the specification. It is my further
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`understanding that claim terms are given their ordinary and accustomed meaning
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`as would be understood by one of ordinary skill in the art, unless the inventor has
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`set forth a special meaning for a term. In order to construe the following claim
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`terms, I have reviewed the entirety of the ‘723 Patent, as well as its prosecution
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`history.
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`A.
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`“dominant axis”
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`35. This term appears in at least claims 1, 2, 10, 11, 14, and 15. In the
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`specification of the ‘723 Patent, the dominant axis is determined based on the
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`17
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`accelerometer’s alignment with gravity. For example, the specification states that
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`“[i]n one embodiment, the dominant axis is assigned after identifying a
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`gravitational influence. The gravitational influence may be identified by
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`calculating total acceleration based upon the acceleration on each axis.” Ex.1001,
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`14:37-41. The specification also states that “[i]n one embodiment, once the
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`orientation is determined, a dominant axis is assigned based upon the orientation.
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`Determining an orientation of the electronic device 100 may include identifying a
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`gravitational influence.” Ex.1001, 6:20-23. In other words, the dominant axis in the
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`specification is “the axis most influenced by gravity, which may change over time
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`(e.g., as the electronic device is rotated).” Ex.1001, 6:24-26.
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`36. Thus, for the purposes of this proceeding, it is my opinion that a
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`POSITA would understand the broadest reasonable interpretation of the term
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`“dominant axis” to include “the axis most influenced by gravity.”
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`B.
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`“cadence window”
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`37. This term appears in at least claims 1, 5, 6, 10, 12, 14, 16 and 17. The
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`specification of the ‘723 Patent specifically defines this term as “a window of time
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`since a last step was counted that is looked at to detect a new step.” Ex.1001, 4:4-5.
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`38. Thus, for the purposes of this proceeding, it is my opinion that a
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`POSITA would understand the broadest reasonable interpretation of the term
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`“cadence window” to include “a window of time since a last step was counted that
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`is looked at to detect a new step.”
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`VII. IDENTIFICATION OF HOW THE CLAIMS ARE UNPATENTABLE
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`39.
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`It is my opinion that claims 4 and 19 are obvious over U.S. Patent No.
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`7,698,097 to Fabio Pasolini et al. (“Fabio”) in view of U.S. Patent No. 7,463,997 to
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`Fabio Pasolini et al. (“Pasolini”), further in view of U.S. Patent No. 5,976,083 to
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`Richardson et al. (“Richardson”).
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`A.
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`State of the Art at the Time of the ‘723 Patent
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`40. Before the earliest claimed priority date of December 22, 2006, others
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`were actively working on pedometer devices that monitored a user’s steps. My
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`own team fielded several well-known systems to monitor human gait in the late
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`90s and early 2000s using wireless MEMs accelerometers mounted on shoes.
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`Another such developer was Fabio Pasolini, who designed motion detection
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`systems using MEMS that could be implemented in phones or other portable
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`electronic devices. See Ex.1006, 2:33-36; Ex.1005, 8:31-34. The pedometers
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`devices that Mr. Pasolini designed use an inertial sensor, such an accelerometer, to
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`count steps of the user while the user is carrying the device. Ex.1006, 1:10-11,
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`2:49-64; Ex.1005, 3:30-35.
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`41. To detect and identify the user’s steps, Mr. Pasolini’s devices analyze
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`positive and negative acceleration peaks provided by the accelerometer. Ex.1006,
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`4:12-21; Ex.1005, 3:35-41. In this way, Mr. Pasolini’s devices provide features
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`that help avoid “false positives” with respect to the step recognition. Ex.1006,
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`7:16-19; Ex.1005, 1:61-2:3. These step-recognition features are described in two of
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`Mr. Pasolini’s issued patents—U.S. Patent No. 7,698,097 (“Fabio”) and U.S.
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`Patent No. 7,463,997 (“Pasolini”)—that were both filed on October 2, 2006 and
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`share the same inventive entity (Fabio Pasolini and Ivo Binda).
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`42. Both of Mr. Pasolini’s patents describe a number of features in
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`common with the pedometer devices. These features include, for example, an
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`accelerometer with multiple axes of detection, so that step recognition is
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`advantageously performed using the accelerations measured by the axis that is
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`most aligned with gravity. Ex.1006, 8:20-32; Ex.1005, 8:15-24.
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`43. The references differ in that the Pasolini reference provides additional
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`detail regarding step detection using linear and multi-axes accelerometers,
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`including describing that the pedometer updates the vertical axis with each
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`acquisition of an acceleration sample to take into account variations of the
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`orientation of the pedometer device during use. Ex.1005, 8:20-24. The Fabio
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`reference, on the other hand, describes applying a regularity condition to the
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`20
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`detected step data so that a step is counted when it occurs within a “validation
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`interval,” which is identified as a window of time since a previous step was
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`counted. Ex.1006, 4:35-39, 7:16-19, FIG. 6.
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`44. As described in more detail below, it is my opinion that the
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`disclosures provided in the Fabio and Pasolini references render obvious each and
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`every element of the claims discussed below.
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`B. Claims 1, 3, and 14 are obvious over Fabio in view of Pasolini
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`1.
`Summary of Fabio
`45. Fabio is directed to “controlling a pedometer based on the use of
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`inertial sensors.” Ex.1006, 1:10-11. An example of Fabio’s pedometer device 1 as
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`“integrated within a portable electronic device, such as a cell phone 2” (Ex.1006,
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`2:33-36) is reproduced below:
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`Ex.1006, FIG. 1.
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`
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`46. Fabio describes that its pedometer 1 includes an “inertial sensor 3
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`[that] supplies at output an acceleration signal AZ, which is correlated to the
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`accelerations undergone by the inertial sensor 3 itself along the detection axis Z.”
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`Ex.1006, 2:56-59. Fabio’s pedometer performs step recognition by sampling the
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`acceleration signal AZ to identify characteristics including “a pos