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`Exhibit O
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`

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`
`Titus Lo, Ph.D.
`13312 SE 43% ST
`Bellevue, WA 98006
`
`Telephone: (425) 442 3288
`E-mail: titus.lo@solutti.com
`
`SUMMARY
`Dr. Lo is currently an independent consultant in the areas of wireless communications.
`He is a veteran in wireless industry, with more than 30 years of experiences in various
`telecomm, satellite communications, and wireless communications technologies.
`In
`particular, he is an expert in including antennas, RF, modulation/coding, radio protocols,
`wireless standards (including 3G, 4G, 5G, and 802.11). Having worked in different
`sectors of the industry such as intellectual property (IP) development and support, R&D,
`product development, network deployment, and design services, he has a deep
`understanding of the telecommunications and wireless industry ecosystem. From 2000 to
`2007 had participated in the IEEE 802.11 and 802.16 Working Groups in setting the
`standard specifications.
`Dr. Lo is a pioneer in the field of smart antenna technology for wireless communications
`and satellite communications. He is the co-author of Digital Beamforming in Wireless
`Communications, the first technical reference book on smart antennas, published in 1996
`by Artech House. He has been granted more than 120 US and foreign patents in the
`area of wireless communications. He has published more than 80 technical papers in
`international journals and conferences, presented and lectured many times at a broad
`array of industry and professional venues in the fields of antennas, RF, and wireless
`communications. He has provided numerous lectures on the same topics to various
`technical and industrial communities.
`Dr. Lo have worked in a number of startups, where he engaged in research and
`development of OFDM/OFDMA technologies and products, especially 3GPP LTE/LTE-A
`and IEEE 802.11. Prior to his startup ventures, he worked at AT&T Wireless, where he
`led a cross-division team of researchers and engineers in research and development of
`key technologies for the world’s first carrier-grade and commercially deployed OFDMA
`wireless system. He was a project/program manager at Communications Research
`Laboratory, McMaster University,
`leading a 20-member team of research engineers,
`scientists, and graduated students,
`in R&D of wireless and satellite communications
`technologies.
`Dr. Lo received his B.A.Sc. degree from the University of British Columbia, Vancouver,
`Canada, M.Eng. and Ph.D. degrees,
`from McMaster University, Hamilton, Ontario,
`in electrical engineering. He was appointed as an affiliated professor at the
`Canada, all
`University of Washington, Seattle, WA from 2008 to 2012. He has served or been
`serving various leadership positions in the Institute of Electrical and Electronics Engineers
`(IEEE). He is a senior IEEE member and a member of IEEE Eta Kappa Nu Honor
`Society.
`
`TCL Exhibit 1003
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`NEO-MDL_PA025888
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`

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`Case 2:22-md-03034-TGB ECF No. 255-11, PageID.19373 Filed 06/20/24 Page 3 of 15
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`EDUCATION
`Ph.D., Department of Electrical and Computer Engineering, McMaster University, Hamilton,
`Ontario, Canada
`M.Eng., Department of Electrical and Computer Engineering, McMaster University, Hamilton,
`Ontario, Canada
`B.A.Sc., Department of Electrical Engineering, the University of British Columbia, Vancouver, British
`Columbia, Canada
`
`EMPLOYMENT HISTORY
`Freelance Wireless Technology Consultant, Bellevue, Washington
`Jan. 2014 —
`present
`Responsibility:
`
`Jan. 2006 —
`present
`Responsibility:
`
`Dec. 2003
`Dec. 2005
`Responsibility:
`
`Mar. 2007 —
`Aug. 2003
`Responsibility:
`
`e
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`e
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`e
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`e
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`e
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`e
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`e
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`e
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`e
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`e
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`e
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`Providing consulting services to clients in various industries in the following
`aspects:
`Analysis, evaluation, and legal procedure support of wireless-technology IP
`portfolios
`Analysis and evaluation of technology markets and industry ecosystems
`VP of Technology and Operations, Neocific, Inc., Bellevue, Washington
`Managing development and maintenance of intellectual property portfolio
`Managing and mentoring a team of engineers in
`the design and
`development of 4G technologies:
`Technology research and development
`Engineering management
`Directing company’s daily operations and business development
`VP of Engineering and Operations, Waltical Solutions,
`Inc., Bellevue,
`Washington
`Managing engineering teams in both the US HQ and an oversea
`subsidiary in the design and development of broadband wireless and wire
`communication systems (802.11, 802.16e, WiMAX, WiBro, etc.):
`Product development
`Technology development
`Engineering management
`Directing company’s daily operations at both US and oversea sites and
`business development
`Principal Member of Technical Staff, Nextcomm,
`Washington
`Leading in R&D of WLAN technologies and products and providing support
`and supervision to a team of engineers:
`The development of baseband signal processor for /EEE 802.11a/g wireless
`local area networks (WLAN): from conceptual design to fixed-point model to
`FPGA prototype realization.
`The system architecture of the /EEE 802.11a/g baseband signal processor:
`from radio front end to interface with MAC
`Leading in intellectual property development:
`Internal R&D projects to develop enabling technologies
`Participation and contribution in /EEE802.11
`
`Inc., Bellevue,
`
`2
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`TCL Exhibit 1003
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`NEO-MDL_PA025889
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`

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`Apr. 1997
`Mar. 2001
`Responsibility:
`
`July 1993 —
`June 1997
`
`Responsibility:
`
`Jan. 1990 —
`March 1997
`Responsibility:
`
`e
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`e
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`e
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`e
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`e
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`e
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`e
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`e
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`e
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`e
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`e
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`e
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`e
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`e
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`Principal Member of Technical Staff, AT&T Wireless, Redmond,
`Washington
`Leading a cross-division team of researchers and engineers from AT&T
`Labs-Research and AT&T Wireless technology development and business
`units in R&D of key technologies for the world’s first carrier-grade and
`commercially deployed OFDMA wireless system; accomplished major
`projects and activities including:
`Definition of technology roadmap for wireless digital broadband data services
`Development and analysis of space-frequency processing techniques for
`current and future products
`Analysis of system bandwidth scalability, coverage, and capacity of wireless
`digital broadband data services
`Development and analysis of array antenna technologies for both base
`stations and subscriber units
`Development and analysis of MIMO channel compensation techniques
`Propagation channel measurement and modeling
`Principal authorship of Air-Interface Design Documents
`Project/Program Manager
`and Senior Research Engineer,
`the
`Communications Research Laboratory, McMaster University, Hamilton,
`Ontario, Canada
`Managing industrial and governmental R&D contracts as well as academic
`research programs; leading a cross-discipline team of engineers, scientists
`and scholars to carry out independent studies, analyses,
`interpretations,
`conclusions and recommendations on various engineering projects that
`require highly specialized knowledge; providing supervision to research
`technicians, visiting scientists, graduate students, and post-
`engineers,
`doctoral fellows; accomplished major projects and activities including:
`Communications:
`LMDS/LMCS system design evaluation
`Intelligent signal processing for wireless communications
`Smart antennas for wireless communications
`Digital beamforming for wireless communications
`Regenerative digital satellite system
`Design study of digital beamforming for L-band and Ka-band mobile satellite
`communications
`Development of software for communications receiver (early concept of SDR)
`Signal Processing:
`Intelligent multi-sensor data fusion
`Digital beamforming for advanced spaceborne synthetic aperture radar
`Fractal modeling of radio wave propagation over trees and bushes
`Robust multi-sensor Multiple-target tracking techniques
`Neural networks for multi-sensor data fusion
`Multiple-target tracking using artificial neural networks
`Principal Consultant, TL Associates, Hamilton, Ontario, Canada
`
`e
`
`e
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`e
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`e
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`e
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`e
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`consulting
`Providing
`companies
`and
`industrial
`both
`services
`to
`governmental research and development agencies; accomplished major
`projects and activities including:
`
`3
`
`TCL Exhibit 1003
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`NEO-MDL_PA025890
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`

`

`Case 2:22-md-03034-TGB ECF No. 255-11, PageID.19375 Filed 06/20/24 Page 5 of 15
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`e
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`e
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`e
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`e
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`Ongoing expert consultation to Ministry of Industry, Canada, on smart antenna
`technology
`Radarsat antenna elevation pattern restoration for Canadian Space Agency
`Radarsat receiver test data analysis methodology for Canadian Space Agency
`Antenna signal processing techniques to provide multipath immunity for a high
`accuracy direction finding system for electronic support measures for
`Department of National Defense
`Research engineer, the Communications Research Laboratory, McMaster
`University, Hamilton, Ontario, Canada
`industrial and governmental R&D contracts as well as
`Carrying out
`academic research programs; making independent studies, analysis,
`interpretations, conclusions and recommendations on various engineering
`projects, including:
`High accuracy direction finding
`Development of robust and effective processing schemes for multifunctional
`radar applications
`Development of software and hardware for an RF communication link system
`for measuring and analyzing real multipath signals
`Modelling of microwave scattering from sea surfaces; development and
`validation of the computer sea-scattering model
`for a communication link
`system
`Digital adaptive beamforming for a wires communication system using
`modern spectrum estimation and adaptive filtering techniques
`Antenna array pattern synthesis and the design of
`the subarray in a
`microwave landing system
`Teaching assistant, Department of Electrical and Computer Engineering,
`McMaster University, Hamilton, Ontario, Canada
`Giving undergraduate tutorial
`lectures; coordinating course experiments;
`grading laboratory reports, assignments, and examinations
`Biomedical Researcher, Mount Sinai Hospital, Toronto, Ontario, Canada
`
`e
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`e
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`e
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`e
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`e
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`e
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`research activities on biomedical signal processing and
`Carrying out
`realization of biomedical systems using both software and hardware
`
`May 1988
`June 1993
`Responsibility:
`
`Sept. 1986 -
`Apr. 1988
`Responsibility:
`
`June 1986 -
`Aug. 1986
`Responsibility:
`
`e
`
`MEMBERSHIP AND PROFESSIONAL ACTIVITIES
`Current:
`Senior Member of the Institute of Electrical and Electronics Engineers (IEEE)
`e Member of IEEE Eta Kappa Nu Honor Society
`Startup subcommittee chair of the Industry Outreach Board of the IEEE Communications
`Society since 2017
`Finance chair of the IEEE Global Humanitarian Technology Conference since 2019
`Vice Chair of IEEE Seattle Communications Joint Chapter from 2019
`
`e
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`e
`
`e
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`e Co-Chair of Startup Forum in the second IEEE 5G World Forum in 2019
`Technical program coordinator for the IEEE Seattle 5G Workshop 2019
`
`e
`
`TCL Exhibit 1003
`
`NEO-MDL_PA025891
`
`

`

`Case 2:22-md-03034-TGB ECF No. 255-11, PageID.19376 Filed 06/20/24 Page 6 of 15
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`e
`
`e Chair of IEEE Seattle Joint Chapter of Communications Society, Vehicular Technology
`Society, Broadcast Technology Society,
`Information Theory Society, and Intelligent
`Transportation Systems Society from 2011 to 2018
`Treasurer of IEEE Seattle Section in 2017 and 2018
`e Audit Committee of IEEE Seattle Section from 2014 to 2018
`e Co-Chair of Startup Forum in the first IEEE 5G World Forum in 2018
`e General co-Chair of IEEE 5G Summit Seattle 2016
`e Award Committee of IEEE Seattle Section in 2015
`e Organization committee 2013 IEEE Seattle Metro Area Workshop “Vision of the Future”
`Technical publication referee for IEEE transactions and Journals
`Technical publication referee for IEE proceedings
`Participant and contributor in the IEEE 802.11 and IEEE802.16 Standard Work Groups
`Short Course Committee Chair, IEEE Northcon’98
`Research grant referee for Natural Science and Engineering Research Council (NSERC) of
`Canada
`
`e
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`e
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`e
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`e
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`AWARDS
`2000 — Outstanding Achievement Awards, by AT&T Wireless
`1999 — Outstanding Achievement Awards, by AT&T Wireless
`1998 — Award for technology innovation, by AT&T Labs — Research
`1997 — CITO Innovation Award For Excellence in Strategic Research for Beam-Forming and
`Smart-Antenna Concepts, by the Communications and Information Technology Ontario
`(CITO), Ontario Centers of Excellence
`1994 — the Mountbatten Premium, by the Institution of Electrical Engineers (IEE), London,
`England
`1986 to 1988 — the Graduate Study Scholarship, McMaster University, Hamilton, Ontario,
`Canada
`1983 — the University of British Columbia Scholarship, the University of British Columbia,
`Vancouver, B. C., Canada
`
`1.
`
`PUBLICATIONS
`A.
`BOOKS
`Henry Leung and Titus Lo, "Array signal processing using radial-basis function neural
`network," in S. Haykin, Editor, Advances in Spectrum Analysis and Array Processing:
`Prentice-Hall, 1995.
`Volume
`John Litva and Titus Lo, Digital Beamforming in Wireless Communications, Artech House,
`1996.
`John Litva, Anupreet Sandhu, Keizo Cho, and Titus Lo, “Adaptive Beamforming in Wireless
`Communications” in T. Rappaport, B. Woerner, J. Reed, W. Tranter, Editors, Wireless
`Personal Communications: The Evolution of Personal Communications Systems, Springer,
`1996.
`
`2.
`
`3.
`
`B.
`
`1.
`
`PATENTS
`Vahid Tarokh and Titus Lo, “Near-optimal low complexity decoding of space-time codes for
`fixed wireless applications,” US6,188,736, US6,470,043, US6,741,635, US7,046,737,
`US7,526,040, US8,179,991
`
`TCL Exhibit 1003
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`NEO-MDL_PA025892
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`

`

`Case 2:22-md-03034-TGB ECF No. 255-11, PageID.19377 Filed 06/20/24 Page 7 of 15
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`itus Lo, Dennis Rosenauer, and Doug Stolarz, “Method for combining communication
`beamsin a wireless communication system,” US6,377,783, US6,987,958
`Titus Lo and Vafa Ghazi, “Method for error compensation in an OFDM system with
`diversity,” US6,442,222, US6,901,125, US7,428,285, US8,223,903, US8,532,239
`“Maximum ratio transmission,” US6,459,740, US6,826,236, US7,274,752,
`Titus Lo,
`US7,362,823, US7,609,771, US8,520,746
`Titus Lo, Adnan Abu-Dayya, and Mike Hirano, "Multicarrier transmission using polarized
`antennae,” PCT/US2001/018993
`Titus Lo and Ruifeng Wang, "Turbo channel estimation for OFDM systems", US6,940,914,
`US7,440,507, US7,656,958, US8,503,548, US8,681,887, US9,148,326
`Titus Lo, “Adaptive communications system and method,” US7,181,246
`Xiaodong Li, Titus Lo, Kemin Li, Haiming Huang, “Methods and apparatus for multi-carrier
`communication systems with adaptive transmission and feedback,”
`US7,693,032,
`US8,027,367, US9,301,296, US10,075,941, CN200580004761.3, KR10-0804651
`Xiaodong Li, Titus Lo, Kemin Li, Haiming Huang, “Methods and Apparatus for Multi-Carrier
`US7,787,431, US8,953,641,
`Communications with Variable Channel Bandwidth,”
`US10,511,417
`Xiaodong Li, Titus Lo, Kemin Li, Haiming Huang, “Methods and apparatus for overlaying
`multi-carrier and direct-sequence spread spectrum signals in a broadband wireless
`communication system,”
`US7,864,725, EP1712019B1, EP2723003, EP3208985B1,
`CN200580003185.0, CN201010576020.5, KR10-0818774
`Xiaodong Li, Haiming Huang, Titus Lo, Ruifeng Wang, “Method and apparatus for multi-
`carrier packet communication with reduced overhead,”
`US/7,948,944, US8,634,376,
`US8,693,430,
`US9,042,337,
`US9,735,944,
`US10,447,450,
`CN200680009811.1,
`CN201210111079.6
`Xiaodong Li and Titus Lo, “Frequency correction in multi-carrier communication systems,”
`US7,957,341, US8,526,.411, US9,326,262, US10,045,319
`Xiaodong Li, Kemin Li, Titus Lo, Hamining Huang, “Methods and apparatus for random
`systems,”
`US7,995,967, US8,467,366,
`in
` multi-carrier
`communication
`access
`US9,565,700, US10,390,369, CN200580007552.4 KR10-804667
`Xiaodong Li, Titus Lo, Kemin Li, and Haiming Huang, “Methods and apparatus for multi-
`carrier, multi-cell wireless communication networks,” EP1712089B1, CN200580001222.4,
`CN201010154096.9, KR10-808462
`Xiaodong Li, Titus Lo, Kemin Li, and Haiming Huang, “Methods and apparatus using cell-
`specific and common pilot subcarriers in multi-carrier, multi-cell wireless communication
`networks,” US8,009,660, US8,934,473, US9,065,614, US9,749,168
`Xiaodong Li, Titus Lo, Kemin Li, Haiming Huang,
`“Methods and apparatus for
`communication systems with time-division duplexing,” US8,014,264, CN200580013366.1
`Xiaodong Li, Kemin Li, Titus Lo, Haiming Huang, Jun Meng, “Methods and apparatus for
`power control in multi-carrier wireless systems,” US8,031,686
`Titus Lo and Xiaodong Li, “Methods and apparatus for multiple-antenna systems in cellular
`broadcasting,”
`US8,041,395, US8,116,822, US8,326,366,
`communication
`and
`US9,048,540, CN200680016367.6
`Haiming Huang, Xiaodong Li, Titus Lo, Kemin Li, “Methods and apparatus for cellular
`broadcasting and communication system,” US8,089,911, US8,374,115, US8,634,375,
`US10,044,517, CN200680000320.0, CN201210195003.6
`Xiaodong Li, Titus Lo, Kemin Li, Haiming Huang, “Methods and apparatus for signal
`transmission and reception in a broadband communication system,”
`US8,094,611,
`US8,428,009, US8,767,522
`
`10.
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`11.
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`12.
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`13.
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`14.
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`15.
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`16.
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`17.
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`18.
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`19.
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`20.
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`TCL Exhibit 1003
`
`NEO-MDL_PA025893
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`

`

`Case 2:22-md-03034-TGB ECF No. 255-11, PageID.19378 Filed 06/20/24 Page 8 of 15
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`21. Haiming Huang, Xiaodong Li, Titus Lo, Kemin Li, “Methods and apparatus for a power
`efficient broadcasting and
`communication system,”
`US8,155,098, US8,457,081,
`US9,780,959, CN200680000425.6, CN201010557763.8
`US8
`22. Xiaodong Li, Titus Lo, Kemin Li, and Haiming Huang, “Method, apparatus, and system for
`mitigating pilot signal degradation by employing cell-specific pilot subcarrier and common
`pilot subcarrier techniques in a multi-carrier cellular network,” US8,432,891
`23. Titus Lo and Xiaodong Li, “Methods and apparatus for flexible use of frequency bands,”
`US8,547,884, US9,363,066, US9,839,037
`24. Titus Lo and Xiaodong Li, “Multiple receivers in an OFDM/OFDMA communication system,”
`US8,548,086, US9,025,650, US9,882,759
`25. Titus Lo and Xiaodong Li, “Methods and apparatus for multi-carrier communications with
`efficient control signaling,” US8,565,181, US9,843,468
`26. Xiaodong Li, Haiming Huang, Titus Lo, Kemin Li, “Methods for multi-carrier communication
`systems with Automatic Repeat Request (ARQ),” KR10-818243
`27. Xiaodong Li, Haiming Huang, Titus Lo, Kemin Li, “Methods and apparatus for multi-carrier
`systems with ARQ,” US8,571,057, US9,083,500, US9,509,451,
`communication
`US10,313,061, CN201210020099.2, KR10-818771
`28. Xiaodong Li, Kemin Li, Titus Lo, Haiming Huang, Jun Meng, “Method and apparatus for
`interference control in a multi-cell communication system,” US8,675,563, US9,755,809
`29. Xiaodong Li and Titus Lo, “Transmission of synchronization and control signals in a
`broadband wireless system,” US8,705,399, US9,014,128, US9,781,730
`30. Xiaodong Li, Titus Lo, Kemin Li, Haiming Huang, “Methods and apparatus for subframe
`configuration and generation in a multi-carrier communication system,” US8,724,443,
`US9,198,179, US9,750,012, US10,368,347
`31. Xiaodong Li and Titus Lo, “Methods and systems for correlated information services,”
`PCT/US2007/084174
`32. Xiaodong Li and Titus Lo, “Multi-carrier modulation with hierarchical resource allocation,”
`US9,036,573, US9,730,205
`33. Titus Lo and Xiaodong Li, “Methods and apparatus for contingency communications,”
`US9,275,540, US9,773,406, US10,325,483, EP2813063B1
`34. Titus Lo and Xiaodong Li, “Multiple-antenna system for cell-specific and user-specific
`ransmission,” US9,344,313, US10,149,173
`35. Xiaodong Li and Titus Lo, “Methods and apparatus for signal conditioning in ofdma
`systems,” US9,363,123
`36. Xiaodong Li, Titus Lo, Kemin Li, and Haiming Huang, “Channel probing signal
`broadband communication system” US9,948
`37. Xiaodong Li, Titus Lo, Kemin Li, and Haiming Huang, “Differential randomization of cell-
`specific and common pilot subcarriers in multi-carrier, multi-cell wireless communication
`networks” US10,326,631
`
`for a
`
`C.
`
`1.
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`2.
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`3.
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`4.
`
`REFEREED JOURNAL PAPERS
`Titus Lo and John Litva, "Adaptive beam-space nulling of multipath signals," /EEE
`Transactions on Antenna and Propagation, vol. 37, no. 1, Jan.1990.
`Titus Lo, Henry Leung, and John Litva, "Non-linear beamforming," Electronics Letters, vol.
`27, no. 4, Feb. 1991.
`Titus Lo, Tim Wong, and John Litva, "A new technique for low-angle radar tracking,"
`Electronics Letters, vol. 27, no. 6, March 1991.
`Titus Lo and John Litva, "Use of a highly deterministic multipath signal model in low-angle
`tracking,"
`Proceedings Part F, vol. 138, no. 2, Apr. 1991.
`7
`
`TCL Exhibit 1003
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`NEO-MDL_PA025894
`
`

`

`Case 2:22-md-03034-TGB ECF No. 255-11, PageID.19379 Filed 06/20/24 Page 9 of 15
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`Titus Lo and John Litva, "Low-angle tracking using a multi-frequency sampled aperture
`radar: An experimental
`investigation,” /EEE Transactions on Aerospace and Electronic
`Systems, vol. 27, no. 5, Sept. 1991.
`Titus Lo and John Litva, "Angles of arrival of indoor multipath," Electronics Letters, vol. 28,
`no. 18, Aug. 1992.
`Ji Chen, Titus Lo, and John Litva, "Scattering of electromagnetic waves from a time-varying
`fractal surface," Microwave and Optical Technology Letters, vol. 6, no. 1, Jan 1993.
`Henry Leung, Titus Lo, and John Litva, "Angle-of-arrival estimation in multipath environment
`using chaos theory," Signal Processing, 31 (1993) pp. 57-68.
`Titus Lo, John Litva, and Henry Leung, "Estimating the impulse response of indoor radio
`channels using signal subspace techniques," /EE Proceedings Part
`vol. 140, no. 3, June
`1993.
`Henry Leung and Titus Lo, "Chaotic signal processing over the sea," /EEE Journal Oceanic
`Eng., vol. 18, no.3, July 1993.
`Titus Lo, Henry Leung, John Litva, and Simon Haykin, "Fractal characterization of sea
`scattered signals," /EE Proceedings Part F, vol.140, no. 4, Aug. 1993. (The authors of this
`paper won the 1993/1994 Mountbatten Premium awarded by the Institute of Electrical
`Engineers, London, England.)
`Tim Wong, Titus Lo, Henry Leung, John Litva, and Eloi Bosse, "Low angle target tracking
`using radial basis function neural networks," /EE Proceedings Part F, vol.140, no. 5, Aug.
`1993.
`Henry Leung, Titus Lo, and John Litva, "Nonlinear Adaptive Signal Processing Based on
`Rational Function," Signa! Processing, 38 (1994), pp. 153-168.
`Titus Lo, Henry Leung, and John Litva, "Radial basis function neural network for direction-
`Signal Processing Letters, vol. 1, no. 2, Feb. 1994.
`of-arrivals estimation,"
`Fengzhen Wang, Titus Lo, John Litva, and William Read, "VHF antenna array processing:
`High accuracy direction finding and performance evaluation with real data,"
`/EE
`Proceedings - Radar, Sonar, Navig., vol. 141, no. 3, June 1994.
`Titus Lo, Henry Leung, and John Litva, "Low-angle radar tracking in a naval environment
`using for-ward-backward nonlinear prediction method,” /EEE Journal Oceanic Eng. vol. 19
`no. 3, July 1994.
`Ji Chen, Chen Wu, Titus Lo, Keli Wu, and John Litva, "Using linear and nonlinear predictors
`to improve the computational efficiency of FD-TD algorithm," /EEE Transactions on
`Microwave Theory and Tech., vol. 42, no. 10, Oct. 1994.
`Titus Lo, John Litva, and Henry Leung, "A new approach for estimating indoor radio
`propagation characteristics," /EEE Transactions on Antenna and Propagation, vol. 42, no.
`10, Oct. 1994.
`Titus Lo, Henry Leung, and John Litva, "Artificial neural network for AOA estimation in a
`multipath environment over the sea," /EEE Journal Oceanic Eng., vol. 19 no. 4, Oct. 1994.
`Henry Leung and Titus Lo, "A spatial temporal dynamical model for sea scattered signals,"
`IEEE Transactions on Geoscience and Remote Sensing, vol. 33, no.2, March 1995.
`Fengzhen Wang, Titus Lo, John Litva, and William Read, "Performance of DF techniques
`Transactions on Aerospace and Electronic Systems, vol. 31,
`with a real VHF array,"
`no. 2, April 1995.
`Ji Chen, Henry Leung, Titus Lo, John Litva, and Matin Blachette, "A modified probabilistic
`data association filter in real clutter," /EEE Transactions on Aerospace and Electronic
`Systems, vol. 32, no. 1, Jan. 1996.
`Fengzhen Wang, John Litva, Titus Lo, Eloi Bosse, and Henry Leung, "Feature-mapping
`data fusion," /EE Proceedings - Radar, Sonar and Navigation, vol. 143, no.1 Feb. 1996.
`
`10.
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`11.
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`12.
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`13.
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`14.
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`15.
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`16.
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`17.
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`8
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`TCL Exhibit 1003
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`NEO-MDL_PA025895
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`24.
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`25.
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`Fengzhen Wang, John Litva, Titus Lo, and Eloi Bosse, "Performance of neural data
`association," /EE Proceedings - Radar, Sonar and Navigation, vol. 143, no.1 Feb. 1996.
`Ji Chen, Titus Lo, Henry Leung, and John Litva, "The use of fractal for modeling EM waves
`scattering from rough sea surface," /EEE Transactions on Geoscience and Remote
`Sensing, vol. 34, no. 4, July 1996.
`26. Ying Zhang, Henry Leung, Titus Lo, and John Litva, "A distributed sequential nearest
`neighbor multitarget tracking algorithm,” /EE Proceedings - Radar, Sonar and Navigation,
`vol. 143, no. 4, Aug. 1996.
`27. Shiping He, Titus Lo, and John Litva, “A spread spectrum system with a time domain
`processing device,” /EEE Transactions on Circuits and Systems II: Analog and Digital Signal
`Processing, Special
`Issue on Low Power Wireless Communications, vol. 44, no. 6, June,
`1997.
`28. Ying Zhang, Henry Leung, Martin Blanchette, Titus Lo, and John Litva, “An efficient
`decentralized multiradar multitarget
`tracker for air surveillance,” /EEE Transactions on
`Aerospace and Electronic Systems, vol. 33, no. 4, Oct. 1997.
`29. Vahid Tarokh and Titus Lo, “Principal ratio combining for fixed wireless applications when
`transmitter diversity is employed,” /EEE Comm. Letters, vol. 2, no. 8, Aug. 1998.
`30. Titus Lo, “Maximum Ratio Transmission”, /EEE Trans. Commun., vol. 47, no. 10, Oct. 1999.
`31. Henry Leung, Titus Lo, and Sichun Wang, “Prediction of Noisy Chaotic time series using an
`optimal radial basis function neural network,” /EEE Trans. Neural Networks, vol. 12, no. 5,
`Sept. 2001.
`32. Titus Lo, “Adaptive space-time transmission with side information,” /EEE Trans. Wireless
`Communications, Vol. 3, no. 5, Sept. 2004.
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`CONFERENCE/SYMPOSIUM PRESENTATIONS
`Titus Lo and John Litva, “Adaptive beam-space nulling of multipath signals,” IEEE AP-S
`International Symposium, June, 1988
`Titus Lo, Jian Wang, and John Litva, “An optimization approach to pattern synthesis in the
`design of microstrip phased array antenna,” IEEE AP-S International Symposium, June
`1989.
`Titus Lo and John Litva, “Early results of multipath measurements on Lake Ontario,” IEEE
`AP-S International Symposium, June 1989.
`Titus Lo, Larry Lai, and John Litva, “Multipath propagation effects on low-angle radar
`tracking: An experimental evaluation,” IEEE AP-S International Symposium, May 1990.
`John Litva, Titus Lo and Tim Wong, “A new technique for low-angle radar tracking”, Proc
`IEEE Pacific Rim Conf. on Communications, Computers and Signal Processing, Victoria B.
`C., May 9-10, 1991 (invited).
`Titus Lo and John Litva, “Characteristics of diffuse forward-scattering signals,” Proc.
`IGARSS'91, Espoo, Finland, June 1991.
`Titus Lo, John Litva, and Robert J. C. Bultitude, “High-resolution spectral analysis
`techniques for estimating the impulse of indoor radio channels,” 1992 IEEE International
`Conference on Selected Topics in Wireless Communications, Vancouver, B. C., June 25-
`26, 1992.
`John Litva, Titus Lo and Shen Ying, “Combining electromagnetic and digital signal
`processing: Moving towards the intelligent antenna,” Symposium on Antenna Technology
`and Applied Electromagnetics, Winnipeg, MN, Aug. 5-7 1992.
`Titus Lo, John Litva, and Henry Leung, “Determination of optimal network structure by
`canonical subspace analysis,” Spie's International Symposium on Optical Engineering and
`Photonics in Aerospace and Remote Sensing, April 1993.
`
`IEEE
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`9
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`TCL Exhibit 1003
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`NEO-MDL_PA025896
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`Ji Chen, Titus Lo, Henry Leung, John Litva, Albert Bridgewater, and Matin Blanchette, “A
`study of track initiation and the modified probabilistic data association filter for multiple target
`tracking using real data,” Proc IEEE Pacific Rim Conf. on Communications, Computers and
`Signal Processing, Victoria B. C., May 9-10, 1993.
`Ji Chen, Titus Lo, and John Litva, “Time-varying fractal surface Scattering,” Progress In
`Electromagnetic Research Symposium, JPL, Pasadena, CA., July 1993.
`Fengzhen Wang, Titus Lo, and John Litva, “Performance analysis of broadband adaptive
`digital beamforming,” IEEE AP-S International Symposium, June 1993.
`Fengzhen Wang, Titus Lo, John Litva, and William Read, “Spatio-temporal Approach for
`real data with multipath propagation,” 1993 Canadian Conference on Electrical and
`Computer Engineering, Vancouver, B.C., Sept. 1993..
`Fengzhen Wang, John Litva, and Titus Lo, “Performance of broadband adaptive digital
`beamforming in communications,” 23 rd European Microwave Conference, Madrid, Spain,
`Sept. 1993.
`Fengzhen Wang, Titus Lo, John Litva, and William Read, “VHF sensor array real data
`processing techniques for direction finding,” The international Conference on Signal
`Processing Applications & Technology'93, Santa Clara, CA, Sept. 1993.
`Titus Lo, Henry Leung, W. Bridgewater, and John Litva, “Multitarget tracking initiation using
`a modified Hough transform,” NATO Advisory Group for Aerospace Research &
`Development Conference Proceedings 539, Guidance and Control Panel 57th Symposium,
`Seattle, Washington, Oct. 12-15, 1993.
`Fengzhen Wang, Titus Lo, John Litva, and Eloi Bosse, “Multisensor automatic target
`classification with neural networks,” IEEE Seventh SP Workshop on Statistical Signal and
`Array Processing, Quebec City, June 1994.
`“ Hopfield network approach to
`Ban Quach, Henry Leung, Titus Lo, and John Litva,
`beamforming in spread spectrum communication,” IEEE Seventh SP Workshop on
`Statistical Signal and Array Processing, Quebec City, June 1994.
`Albert Chan, Titus Lo, and John Litva, “Detection in array receiver using radial basis function
`network,” IEEE Seventh SP Workshop on Statistical Signal and Array Processing, Quebec
`City, June 1994.
`Titus Lo, Henry Leung, John Litva, “A comparative study of statistical and neural DOA
`estimation Techniques,” IEEE Seventh SP Workshop on Statistical Signal and Array
`Processing, Quebec City, June 1994.
`Fengzhen Wang, Titus Lo, John Litva, and William Read, “High accuracy direction finding
`antenna array system,” IEEE AP-S International Symposium, Seattle, WA, June 1994.
`Charles Laperle, Titus Lo, and John Litva, “Modelling of nonlinearities and their effects on
`digital beamforming,” IEEE AP-S International Symposium, Seattle, WA, June 1994.
`Nagula Sangary, Keli Wu, Titus Lo, and John Litva, “Beamforming with spiral antennas,”
`URSI Radio Science Meeting, Seattle, WA, June 1994.
`Titus Lo, Fengzhen Wang, Ji Chan, Henry Leung, and John Litva, “Neural networks for
`Multisensor Multitarget tracking,” Dedicated Conf. on Robotics, Motion, and Machine Vision,
`Aachen, Germany, Oct. 1994 (invited).
`Fengzhen Wang, Titus Lo, John Litva, and Eloi Bosse, “A new energy function of mean field
`Hopfield network for measurement data association,” 5th International Conference on
`Signal Processing and Technology’94, Dallas, Taxes, Oct. 1994.
`Ying Zhang, Henry Leung, Titus Lo, and John Litva, “A distributed multi-sensor multi-target
`tracking algorithm,” Spie's International Symposium on Optical Engineering and Photonics
`in Aerospace and Remote Sensing, April 1995.
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`10
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`TCL Exhibit 1003
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`NEO-MDL_PA025897
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`

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`Case 2:22-md-03034-TGB ECF No. 255-11, PageID.19382 Filed 06/20/24 Page 12 of 15
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`Yifeng Li, Henry Leung, Titus Lo, and John Litva, “New architectures for centralized
`multisensor multitarget tracking,” Spie's International Symposium on Optical Engineering
`and Photonics in Aerospace and Remote Sensing, April 1995.
`Henry Leung, Ban Quach, Titus Lo, and John Litva, "Chaotic neural beamforming for
`wireless communications,” IEEE Pacific Rim 1995 conference, Victoria, B.C., May 1995.
`John Litva, Anupreet Sandhu, Keizo Cho, and Titus Lo, “Adaptive beamforming for wireless
`communications,” 5th Virginia Tech symposium on Wireless Personal Communications,
`Blacksburg, VA, June 1995.
`Keizo Cho, Titus Lo, and John Litva, “BER performance comparisons between a Diversity
`Receiver and a LMS beamforming receiver operating with cochannel
`interference,”
`Wireless’95, Calgary, Alta., July 1995.
`Anupreet Sandhu, Titus Lo, Henry Leung, and John Litva, “Hopfield neurobeamformer for
`spread spectrum communications,” The 6th IEEE International symposium on Personal,
`Indoor and Mobile Radio Communications (PIMRC 95), Toronto, ON., Sept. 1995.
`Wei Zhang, T