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`STUART J. LIPOFF
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`Mr. Lipoff is president of IP Action Partners Inc, a small business consultancy with a practice in
`TIME (telecommunications, information technology, media, electronics, and ebusiness)
`industries and technologies. He draws upon his 30+ years of experience in a wide variety of
`technologies and industries to assist clients with knowledge based consulting services involving
`complex business decisions. Clients turn to him for his unique ability to combine a deep
`understanding of industry dynamics with his equal depth in the underlying technologies. Because
`he is at home in either the board room or the laboratory, the services he provides range from top
`line revenue enhancement to operations and capital efficiency improvement working across all
`levels of the client organization.
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`Mr. Lipoff was employed 25 years by Arthur D Little, Inc (ADL) as VP and Director of
`Communications, Information Technology, and Electronics (CIE); 4 years by Bell & Howell
`Communications Company as a Section Manager, and 3 years by Motorola's Communications
`Division as a Project Engineer. At ADL he was responsible for the firm's global CIE practice. At
`both Bell & Howell and Motorola, he had project design responsibility for wireless
`communications and paging products.
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`Stuart Lipoff has Bachelor's Degrees in Electrical Engineering and in Engineering Physics, both
`from Lehigh University. He also has received a Masters Degree in Electrical Engineering from
`Northeastern University, and a MBA degree from Suffolk University.
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`Mr. Lipoff is a fellow of the IEEE Consumer Electronics, Communications, Computer, Circuits,
`and Vehicular Technology groups. He is a member of the IEEE Consumer Electronics Society
`National Board of Governors, and was the Boston Chapter Chairman of the IEEE Vehicular
`Technology Society. He served as 1996-7 President of the IEEE Consumer Electronics Society
`(CESoc), as Chairman of the Consumer Electronics Society Standards Committee, and presently
`as Vice President of Publications for the CESoc.. He has also chaired the search committee for
`Sony supported Mazura Ibuka Award in consumer electronics. As Vice President and Standards
`Group Chairman of the Association of Computer Users, he served as the ACU representative to
`The ANSI X3 Standards group. For the Federal Communications Commission's Citizens
`advisory committee on CB radio (PURAC), he served as Chairman of the task group on user rule
`compliance. He has been elected to membership in the Society of Cable Television Engineers
`(SCTE), The Association of Computing Machinery (ACM) , and The Society of Motion Picture
`and Television Engineers (SMPTE).
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`Stuart Lipoff holds a FCC General Radiotelephone License and a Certificate in Data Processing
`(CDP) from the ACM supported Institute for the Certification of Computing Professionals
`(ICCP). He is a registered professional engineer (by examination) in The Commonwealth of
`Massachusetts and also in The State of Nevada.
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`GOOGLE EXHIBIT 1003
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`Mr. Lipoff holds seven USA patents and has published articles in Electronics Design,
`Microwaves, EDN, The Proceedings of the Frequency Control Symposium, Optical Spectra, and
`numerous IEEE publications. He has presented papers at many IEEE and other meetings. In the
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`fall of 2000, he served as general program chair for The IEEE Vehicular Technology Conference
`on advanced wireless communications technology. He has organized sessions at The
`International Conference on Consumer Electronics and was the 1984 program chairman. He
`conducted an eight week IEEE sponsored short course on Fiber Optics Systems Design. In 1984,
`he was awarded IEEE's Centennial Medal and in 2000 IEEE's Millennium Metal.
`
`He has served as member of the USA advisory board to the National Science Museum of Israel
`and has presented a short course on international product development strategies as a faculty
`member of Technion Institute of Management in Israel. He is also served as a member of the
`board of directors of The Massachusetts Future Problem Solving Program.
`
`Mr Lipoff is internationally recognized as an authority and opinion leader in new economy
`related businesses and technology. Citations supporting his recognition can be found on his web
`site at http://www.lipoff.org .
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`Some examples of projects he has performed in the telecommunications and wireless
`communications sectors include:
`
`For Rogers Communications of Canada, he benchmarked their high speed cablemodem and
`video services as compared to the VDSL "FIBE25" offered by Bell Canada. This required a
`combination of field testing and analysis of the Bell fiber to the neighborhood architecture.
`
`For the National Cable Telecommunications Association (NCTA) he prepared a paper to
`deliver at an FCC workshop on high speed broadband services. In this paper, he provided a
`technical analysis of the limits of the cable industry DOCSIS architecture as compared to the
`wireless telephone industry DSL based systems.
`
`For a technical paper presented at the NCTA Cableshow, he prepared an engineering
`simulation and analysis of the impact of over the top voice over IP telephony services as a
`function of traffic load on the system.
`
`Leadership of the project which developed the series of DOCSIS specifications for high speed
`residential cable modems. The scope of work included developing a roadmap and strategic
`framework for evolving the business from simple high speed internet services to multimedia
`broadband services combining voice, data, and secure electronic content delivery. This project
`was performed under contract to the MCNS consortium of cable TV operators representing
`85% of the subscriber base in North America and has since been adopted by the United
`Nations as a global telecommunications standard.
`
`Working with Cambridge Consultants UK Limited (a subsidiary of Arthur D Little, Inc), he
`contributed to the business plan that resulted in the spin out of Cambridge Silicon Radio
`(CSR), one of the leading semiconductor suppliers of Bluetooth technology. He continued to
`assist CSR with applications identification and planning while employed at ADL.
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`For an advanced R&D group at Texas Instruments, he provided marketing and applications
`assistance that lead to TI's current TIRUS RF tag product line. The project involved a
`competitive review of RF tag technologies and development and evaluation of the market
`potential for current success models such as the Mobil Speedpass and Ford Motor AntiTheft
`high security key.
`
`Leadership of a project jointly funded by The National Association of Broadcasters and
`Maximum Service TV Association to analyze options to accelerate the adoption of digital TV
`technology by consumers. His recommendations were provided to the FCC and were the
`basis for the August 2002 report and order the FCC issued to mandate a roll-out schedule for
`digital TV receivers.
`
`For a manufacturer of hand-held industrial computing products, I co-developed the protocol
`for a wireless local area network that was the basis for the current IEEE 802.11 wireless LAN
`standard. Latter I worked with this same client to selected voice over internet protocol
`(VoIP) codecs and algorithms that support the client's current product offering cordless
`industrial voice telephony over a quality of service (QoS) managed wireless IP network.
`
`Leadership of the project that studied the technology and economics of wireless personal
`communications technology. The project included the selection of CDMA technologies and
`the development of strategies to compete with incumbent cellular carriers. This effort led to
`the formation of a consortium between Sprint and the cable MSOs that has evolved into the
`present Sprint PCS business.
`
`Analysis and recommendations in a study funded by CableLabs which led to today's hybrid-
`fiber coax architecture widely deployed worldwide for delivering broadband multimedia
`services to the home. The project involved developing forecasts of technology trends in
`parallel with projecting the business applications. Detailed proforma financial models were
`developed to make the cost/benefit of deploying this technology visible to the cable industry.
`
`For Bell South I contributed to a major operations improvement project involving developing
`forecasts of the future competitive environment, customer needs, a strategy to compete, and
`new business models. These forecasts were then applied to develop business redesign
`recommendations and a list of new services offerings.
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`For a large multinational cellular service provider I performed a review of their capital
`efficiency. The project involved the collection of data from over 25 systems in 12 countries
`and developing capital efficiency metrics that were normalized to the specific geographic and
`demographic specifics of each system. The project not only provided a measure of present
`and historical capital efficiency but also provided a management system to be employed for
`the future.
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`For an OEM supplier of subscriber premise telephony equipment sold in multiple countries he
`engaged in an operations improvement project looking at all aspects of the design,
`manufacturing, distribution, and support of this high volume consumer product. By means of
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`including unique capabilities in the design of the next generation product that allowed for
`automatic configuration, he was able to improve the firms performance in multiple
`dimensions. The new product allowed for a single universal product that reduced inventory
`costs, simplified distribution, and reduced order fulfillment time. A cost benefit analysis was
`performed to demonstrate the value of the significant investment required and showed
`paybacks of under 6 months.
`
`For a large multiclient project I led the technology analysis efforts exploring the applications
`fit and cost benefit analysis of electro optics technologies across a wide range of industries
`and applications from telecommunications to sensors. The client group included NEC,
`Sumitomo, CBS, Corning, Siemens, and several other firms. The work was performed in the
`mid 1970's just as fiber optics technology was emerging from the laboratory. During this
`project I developed automated system design and cost models of fiber optics
`telecommunications systems that allowed war-gaming the applications based on expected
`technology improvements and new applications demands. A byproduct of this multiclient
`project was the Corning/Siemens joint venture Siecor. I assisted both companies develop
`their joint venture agreement and strategies.
`
`For a second multiclient group, I studied the state-of-the-art of available LED and
`semiconductor laser sources in the near infrared 820 nM band. By measuring these devices
`and determining their contribution to distortion products, I was able to develop applications
`used today in the cable TV industry involving linear modulation of sources for analog cable
`TV in hybrid fiber coax (HFC) systems. This work was also performed in the late 1970's
`time frame and contributed to the first commercial HFC systems deployed in the early 1990's.
`
`For Magnavox Cable TV (a division of N.A. Philips) I performed comparative cost and
`technical analysis of fiber optics versus conventional coax systems. This analysis was
`followed by the development of strategies and sales support materials to pitch the new HFC
`systems to cable TV operators.
`
`For Fujikura Electric of Japan, I explored the intellectual property situation in optical
`communications cables, waveguides, and associated electro-optics components. During this
`project I met with representatives of the US Department of Commerce, Corning, and other
`organizations with major patent positions. I identified opportunities for licensing and joint
`venture.
`
`For AMP Electric, I evaluated an opportunity to develop and supply fiber optics connectors to
`the telecommunications industry. The results of this project was the launch of a variety of
`products targeted to short distance information technology and enterprise network
`connectors.
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`In 1989, as the first project for the newly formed Cable Television Laboratories, I performed
`a major project for the cable industry to study the role for fiber optics in cable TV. The
`project developed alternative designs for fiber architectures and developed cost models to
`explore cost differences. The recommended Hybrid Fiber-Coax (HFC) systems are now being
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`built into today's cable systems worldwide, and the future roadmaps developed in 1989 are
`still the blueprints being followed today.
`
`In 1994 I performed additional work for The Cable Television Laboratories in which I
`studied the application of remote and distributed antennas supporting microcellular PCS on
`hybrid fiber-coax cable TV systems. A key issue explored was the requirement for the fiber
`optic portion of the plant to carry the PCS carriers in analog form and deal with the wide
`dynamic range demands for inbound signals.
`
`For a consortium of the major cable TV operators consisting of Comcast, Time Warner, Cox,
`and Rogers; I developed models for prediction of reliability of alternative HFC architectures
`and their suitability to provide local exchange voice services competitive with ILECs. The
`project required understanding the reliability specifications employed in conventional local
`exchange carrier telephone plant and the contributions between hardware, power, and
`workmenship failures. Each of three alternative fiber optic architectures for cable delivered
`voice telephony were studied and modeled to develop reliability predictions and
`recommendations were made as to which aspects of the three alternatives were the best
`choice for cable delivered voice telephony.
`
`For a consortium called Multimedia Network Cable Network Systems (MCNS) consisting of
`TCI, Comcast, Cox, Time-Warner, and Rogers I lead a project that developed the DOCSIS
`series of cable modem interface specifications suitable for use on modern hybrid fiber-coax
`cable TV plant. This DOCSIS specification has been adopted as an ITU international
`specification and is used world-wide as the basis for today's commercial cable modem service
`over HFC cable plant.
`
`For the USA CIA, I performed a project to identify critical electro-optics technologies in the
`marketplace as well as in late stages of development. This project involved tracking the
`source and proliferation of these technologies within, and outside of, the United States. Of
`particular interest was the export of these critical technologies outside the USA and
`understanding how they were being exported, the planned uses, and the parties involved.
`
`I supported a project for the US Office of Technology Assessment by providing analysis for
`the project team on the capabilities and limitations of technology in supporting the broadband
`telecommunications development through analysis of data communications systems and
`services provided over electro-optical systems.
`
`For the real estate management group of the Northern Indiana Public Service Company
`(NIPSCO), I led a project to determine market and technical feasibility of NIPSCO's using its
`rights-of-way to offer a fiber-based private network transmission service to the highly
`industrialized area of Northern Indiana. This project involved conceptual layout of the right-
`of-way of the new network, development of a service model, investigation of the competitive
`and regulatory situation, identification of likely customers, and interviews with both potential
`customers and potential partners to validate the market and technical assumptions.
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`For Commonwealth Edison of Chicago, I contributed to a project in which a statewide,
`multimedia fiber optic communications network was designed to replace the electric
`company's aging microwave transmission system. The new fiber optic system was designed
`to support voice, customer service data terminals, SCADA, protective relaying,
`teleconferencing, mobile radio backbone, and computer-aided design remote access to
`engineering drawings. The project resulted in a systems design, an RFP procurement
`document, a cost justification for CECO management and the state PUC, and a time-staged
`implementation plan. Following this project, I participated in a follow-on project to evaluate
`vendor responses to the RFP. The system was built and is in operation in the Chicago Metro
`Area.
`
`For COMCAST Cablevision of Philadelphia, he assisted in the development of a family of
`advanced two-way, residential digital service, including development of system/service
`concepts and specification/selection of a range of equipment to provide this service. Key to
`the services was the specification of the HFC outside plant required to support the services.
`
`For Kansai Electric in Japan, I developed financial and operating models of a range of typical
`HFC based U.S. cable television operations to be used as planning tools for new systems
`being considered in that country.
`
`For the Westinghouse Teleprompter Cable Company, I studied the market for a fiberoptic
`based institutional data network in Pittsburg and developed the business and financial models
`to examine the financial attractiveness.
`
`For GTE Systems I prepared a presentation on developing commercial opportunities for
`wide-bandwidth ATM switching. The scope of applications included: metro area network
`LAN interconnect, broadcast studio digital video routing and switching, and distributed
`switching for digital wireless personal communications networks. The goal of the project
`was to explore commercial applications for their military systems broadband switching
`technology.
`
`I supported an assignment which prepared the specifications for a three-node, two-link
`communications system for Niagara Mohawk Power Corporation. Our system designs
`included requirements for lightwave cable, transmitters, receivers, voice channelization
`equipment, multiplexers, voice terminals and data modems, low-speed and high speed
`facsimile equipment, video conferencing cameras and monitors, plus a high-speed data
`interface with IBM 3030 computers. We observed tests on cable and equipment at the
`manufacturer's plant and approved them prior to shipment to the field site.
`
`I was a member of a team exploring the airport applications of fiber optics cables under a
`DOT project in California. The Bakersfield Airport Fiber-Optic Cable Loop is a data
`acquisition/power control/signal monitoring and communication system for airport control
`purposes. The system provides a reliable environment to collect data and send control signals
`to various airport facilities scattered around the perimeter of the airport. The airport facilities
`included air surveillance radar, radio transmitters and receivers, runway visual ranges,
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`equipment for instrument landing, power distribution switches, and others.. Our work
`included the initial feasibility study, the field requirement evaluation, the generation of the
`specific fiber optical loop design guide lines, the system's architectural design, the
`subsystem's component specifications, the special interface hardware designs, the actual field
`testing and debugging, and the training of field technicians.
`
`I supported a communications systems design project for AMTRAK. This project involved
`an economic and design feasibility study of a proposed $30 million communications system
`along its 500-mile right-of-way between Boston and Washington. The system was to carry
`train control data, company operational communications, point-to-point video conferencing,
`and cable television signals as well as voice communication. Various voice, data, and video
`traffic capacities were studied. We provided cost models of systems with capacities of up to
`30,000 circuits between the eleven major nodes and with local distribution points along the
`tracks. Lightwave transmission technology was the proposed method. Our planning models
`took into account fiber waveguide attenuation, types of laser diode/LED transmitters and
`APD receivers, voice circuit channel banks, modems and repeaters. Models were developed
`for the costs of operation and maintenance as well as construction.
`
`For an investment bank, I evaluated the processes used to make optical fiber and interviewed
`key personnel in the borrower firm. Our report included a fiber optic market assessment for
`the products of this firm and a technology and assessment review to aid the bank in making a
`loan decision.
`
`I supported a project for Japan's Ministry of International Trade and Industry, in which we
`analyzed worldwide market opportunities in electro-optics, including optical fibers and
`cables, optical displays, light sources and detectors. Supporting our data base through
`interviews, we estimated electro-optic market volumes in the telecommunications, military,
`utilities, process control, local network, and medical segments of the industry. The
`technological trends expected in these sectors were also summarized in our report.
`
`For Asahi Glass, I led a project which explored the opportunities for optical media and
`associated components. The project explored commercial , consumer, and military
`applications of the technology and developed market forecasts of the expected unit volumes,
`timing, and performance requirements in each sector. The work included developing
`technology forecasts of the key components including sources, detectors, signal processing
`electronics, and media.
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`For Dow Chemical, I led a project which attempted to value one of their new technology
`developments in read/write/erasable optical media. The project explored many of the same
`topics noted for Ashai Glass above but from the perspective of the media opportunities.
`
`For 3M, I participated in several projects for the group that was allocating funding to internal
`optical media R&D projects. My contribution included providing input on the competitive
`state of the art as well as inputs on the size and applications of various markets for the 3M
`technology.
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`For DataPlay, a startup manufacturer of new consumer electronics optical media and drives, I
`led a project which performed a design review of the their digital rights management
`technology and overall security of their system. In addition to the cryptographic and
`electronics issues, the project required an analysis of the optical media itself and
`consideration of the degree of difficulty of counterfeiting or cloning the information content
`on the media.
`
`For Polaroid Corporation, I reviewing the portion of their intellectual property portfolio
`related to fiber optical communications systems with a view to finding opportunities to
`outlicense the patents to third parties. I identified a coupler with applications in passive
`optical networks and provided them with leads as to potential licensees.
`
`For Textron Systems I performed a project which codified their technology know how and
`intellectual property in electro optics and mapped their mainly military technology into
`potential highly valued commercial applications. The project identified opportunities in free-
`space communications as well as some unique high power solid state sources with
`applications in long haul and local passive optical networks.
`
`For the IEEE Boston Section, I organized a 12 week short course on optical communications
`systems and presented two of the 12 lectures.
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`For Bellcore (now Telcordia division of SAIC), I evaluated the R&D portfolio of their
`Applied Research Group. The main components of this portfolio were DWDM technologies
`for long haul interLATA communications as well as optical multiplexing components for
`fiber-in-the-loop applications. I provided R&D planning assistance on the allocation of
`funding and priorities to the R&D efforts and identified opportunities for securing intellectual
`property rights to critical R&D efforts.
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`May 1, 2017 TLR
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`STUART J. LIPOFF
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` RESUME ADDENDUM
`
`Litigation Support Projects as a Disclosed Expert
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`• Provided declarations in support of IPRs before The United States Patent Office Trial and
`Appeal Board
`Client: SECURUS TECHNOLOGIES, INC.
`Adverse Party: GLOBAL TEL*LINK CORPORATION
`In the matters of:
`U.S. PATENT No. 9,521,250
`U.S. PATENT No. 9,307,386
`U.S PATENT No. 9,094,500
`U.S PATENT No. 8,929,525
`U.S PATENT No. 7,248,685
`U.S. PATENT No. 9,509,856
`
`• Provided declarations and deposition testimony in support of IPRs before The United
`States Patent Office Trial and Appeal Board
`Client: SECURUS TECHNOLOGIES, INC.
`Adverse Party: GLOBAL TEL*LINK CORPORATION
`In the matters of:
`U.S. PATENT No. 8,855,280
`U.S PATENT No. 8,606,229
`
`• Provided declarations in support of an IPR before The United States Patent Office Trial
`and Appeal Board
`Client: TCT MOBILE (US) INC. & TCT MOBILE, INC
`Adverse Party: WIRELESS PROTOCOL INNOVATIONS, INC.
`In the matter of:
`U.S. PATENT NO. 9,125,051
`
`• Provided declarations and deposition testimony in support of IPRs before The United
`States Patent Office Trial and Appeal Board
`Client: TCT MOBILE (US) INC. & TCT MOBILE, INC
`Adverse Party: WIRELESS PROTOCOL INNOVATIONS, INC.
`In the matters of:
`U.S. PATENT NO. 8,565,256
`U.S. PATENT NO. 8,274,991
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`• Provided declarations in support of IPRs before The United States Patent Office Trial and
`Appeal Board
`Client: ONE WORLD TECHNOLOGIES, INC. D/B/A TECHTRONIC
`INDUSTRIES POWER EQUIPMENT
`Adverse Party: THE CHAMBERLAIN GROUP, INC
`In the matters of:
`U.S. PATENT NO. 7,224,275
`U.S. PATENT NO. 7,161,319
`U.S. PATENT NO. 7,339,336
`U.S. PATENT NO. 7,196,611
`U.S. PATENT NO. 7,635,966
`U.S. PATENT NO. 6,998,977
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`• Provided expert reports and deposition testimony on invalidity, retained by Google as a
`technical expert in the case captioned below:
`In The United States District Court for the District of Delaware
`Civil Action No. 13-429-SLR
`Plaintiffs: HBAC MATCHMAKER MEDIA, INC
`Defendants: GOOGLE INC., et al
`In the matter of U.S. PATENT NOS. 5,774,170 AND 6,002,393
`
`• Provided expert reports and deposition testimony on invalidity, retained by DirecTV
`as a technical expert in the case captioned below:
`In The United States District Court for the District of Delaware
`Civil Action No. 13-432-SLR
`Plaintiffs: HBAC MATCHMAKER MEDIA, INC
`Defendant : THE DIRECTV GROUP, INC.
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`• Provided expert report and testified at ITC hearing as technical expert, retained by
`Samsung in the case captioned below:
`The United States International Trade Commission
`Investigation No. 337-TA-882
`In the Matter of CERTAIN DIGITAL MEDIA DEVICES, INCLUDING
`TELEVISIONS, BLU-RAY DISC PLAYERS, HOME THEATER SYSTEMS,
`TABLETS AND MOBILE PHONES, COMPONENTS THEREOF AND
`ASSOCIATED SOFTWARE
`Complainants: Black Hills Media, LLC
`Respondents: Samsung Electronics Co. Ltd.
`
`• Provided expert reports and deposition testimony on invalidity and rebuttal to
`infringement, retained by Comcast et al as a technical expert in the case captioned below:
`The United States District Court, Eastern District of Texas, Marshall Division
`Civil Action No. 2:11-CV-30 (DF)
`In the Matter of United States Patent Number 5,563,883
`Plaintiffs: C-Cation Technologies, LLC
`Defendants: Comcast Corporation, Charter Communications, Inc., cequel
`Communications, LLC dba Suddenlink Communications, Cable One, Inc.,
`Almega Cable Inc., Longview Cable Television Company, Inc., and Kilgore
`Video, Inc.
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`Page 10 of 14
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`• Provided expert reports on invalidity and rebuttal to infringement, retained by Apple in
`the case captioned below:
`The United States District Court, Eastern District of Texas, Tyler Division
`Civil Action No. 6:10-cv-74-LED-JDL
`In the Matter of Certain Digital Set-Top Boxes Components Thereof
`Plaintiffs: Smartphone Technologies LLC
`Defendants: LG Electronics Inc, LG Electronics USA, Inc, Apple Inc, and AT&T
`Mobility LLC
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`• Provided expert report and presented tutorial at ITC hearing as technical expert,
`retained by Apple in the case captioned below:
`The United States International Trade Commission
`Investigation No. 337-TA-808
`In the Matter of Certain Electronic Devices with Communication Capabilities,
`Components Thereof, and Related Software
`Complainants: HTC Corporation
`Respondents: Apple Inc
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`• Provided expert report and testified at ITC hearing as technical expert, retained by
`Cablevision in the case captioned below:
`The United States International Trade Commission
`Investigation No. 337-TA-712
`In the Matter of Certain Digital Set-Top Boxes Components Thereof
`Complainants: Verizon Services Corporation and Verizon Communications Inc.
`Respondents: Cablevision Systems Corporation
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`Provided declarations as a technical expert, retained by Comcast in the case captioned
`below:
`
`The United States District Court for the Eastern District of Virginia, Norfolk
`Division
`Civil Action No. 2:11 CV 103 RAJ/TEM
`Plaintiffs: Bear Creek Technologies, Inc.
`Defendants: Comcast Corporation et al
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`• Provided declarations and expert report as technical expert, retained by Active Video in
`the case captioned below:
`The United States District Court for The Eastern District of Virginia, Norfolk
`Division
`Civil Action No. 2:10-cv-248 RAJ/FBS
`Plaintiffs: Active Video Networks Inc.
`Defendants: Verizon Communications Inc., Verizon Services Corp.
`Verizon Virginia Inc. and Verizon South Inc.
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`• Provided expert report and deposition testimony as a technical and industry expert,
`retained by eleven member joint defense group in the case captioned below:
`The United States District Court for The District of Maryland, Southern Division
`Civil Action No.8:07-cv-03012-AW (D.Md.)
`Plaintiffs: Technology Patents LLC
`Defendants: Deutsche Telekom AG et al: AT&T Mobility LLC, Microsoft
`Corporation, Yahoo! Inc., Sprint Nextel Corporation, Motorola, Inc., Palm, Inc.,
`Samsung Electronics Co., LTD., Samsung Telecommunications America LLP,
`LG Electronics Mobilecomm U.S.A., Inc., Helio, LLC, Clickatell (PTY) LTD.,
`Cellco Partnership (d/b/a Verizon Wireless), and T-Mobile USA, Inc.)
`
`• Provided declarations as a technical expert, retained by BigBand Networks in the case
`captioned below:
`
`The United States District Court for The District of Delaware
`Civil Action No. 07-351 (JJF) Plaintiffs:
`BigBand Networks, Inc. Defendants:
`Imagine Communications, Inc.
`
`• Provided declarations as a technical expert, retained by Romek Figa in the case
`captioned below:
`The United States District Court for The District of Massachusetts
`Civil Action No. 08-cv-10304-NG
`Plaintiffs: Romek Figa d/b/a Abraham & Son
`Defendants: Apple Inc.
`
`• Provided declarations as a technical and industry expert, retained by ODS Technologies
`in the case captioned below:
`The United States District Court Central District of California, Western Division
`Civil Action No. CV 07-03265 DDP (RCx)
`Plaintiffs: ODS Technologies, L.P., d/b/a TVG Network, and ODS Properties, Inc.
`Defendants: Magna Entertainment Corporation; HRTV, LLC., ; and Xpressbet,
`Inc.
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`• Provided expert report and declarations as a technical and industry expert, retained by
`Motorola in the case captioned below:
`The United States District Court for the District of Delaware
`Civil Action No. 07-752-GMS
`Plaintiffs and Counter-Defendants: Motorola, Inc., ET AL
`Defendants and Counter-Plaintiffs: Rembrandt Technologies, LP, ET AL
`
`• Provided expert report and deposition testimony as a technical and industry expert,
`retained by Amino Communications in the case captioned below:
`The United States District Court, Central District of California
`Civil Action No. CV-07-1829
`Plaintiffs: Amino Communications, LLC
`Defendants: Guest-Tek Interactive Entertainment, LTD, Guest-Tek Inc., and
`DOES 1 through 10
`
`• Provided expert report and deposition testimony as a liability industry expert, retained
`by JTMD and Ascion in the case captioned below:
`The United States District Court, District of Massachusetts
`Civil Action No. 07-CV-10207-RGS
`Plaint