Dan Sadot

Professor

Chairman of the Cathedra for Electrooptics, in the memory of Reuven and Frances Feinberg

Director of the Optical Communications Research Laboratory

(Updated: January 2024)

Born: 1962

Ph.D.: 1994, Ben Gurion University, Summa Cum Laude

Post Doc: 1995, Stanford University

Senior Lecturer: 1996, Ben Gurion University

Associate Professor: 2001, Ben Gurion University

Full Professor: 2009, Ben Gurion University

e-mail: sadot@ee.bgu.ac.il

Tel: +972-54-4524289

 

Research activities

Consultant

List of Master students and thesis

List of Ph.D. students and thesis

Grants

Honors and awards

Patents

Academic responsibilities

International visibility

Publications

 

Research Activities

  1. Digital Signal Processing and High Order Modulation in Optical Communications
  2. High speed Data Centers Inter- and Intra-connections.
  3. Optical Encryption and Steganography
  4. Optical Communications over free space (FSO)
  5. Machine Learning based compensation of optical transceivers impairments
  6. Optical MIMO
  7. Optical OFDM

Master Thesis Supervision

            List of students and thesis:

(1)*      Y. Nachmani,“Queueing algorithms for Tbit/sec ATM/WDM switching”- final grade: 92 

(2)*      I.Elhanani, “Tbit/sec packet switching-implementation of control algorithms”- final grade: 93

(3)*      D. Shemtov, “Optical-domain orrenti in optical communications systems”- final grade: 96

(4)* †   E. Buimovich, “Optical aspects in ATM/WDM switching” – final grade: 93

(5)*      G. Kats, “Optical CDMA systems” – final grade: 92

(6)*      R.Flisher,“Synchronization aspects in high speed WDM switching”–final grade: 80

(7)*      M. Albo, “Performance evaluation of switch’s scheduling algorithms under Self-Similar Traffic” – final grade:90 (joint supervision with Dr. Yehuda Ben Shimol)

(8)*      Y. Nir, “Electronic interface design for optical ATM/WDM switching” – final grade: 90

(9)*      D. Meron,“Modeling and implementation of Terabit routers schedulers” – final grade: 93

(10)*   I. Maor, “Optical ATM/WDM switch – digital sigaling and control” – final grade: 87

(11)*   T. Batatt, “multi-level signaling in optical communications” – final grade: 90

(12)*   Hezi Joseph, “Implementation of Optical CDMA” – final grade: 95

(13)*   N. Gurfinkel, “Semiconductor optical amplifier dynamics in optical networks,”

final grade: 92.

(14)*   Zvi Lifshitz, “All-optical encryption in high-speed networks” – final grade: 89

(15)*   Gil Paryanti, “Optical CDMA code optimization for maximal channel capacity”; joint supervision with Prof. Lyandress – final grade: 93

(17)*   Avishay Elfandari, “OCDMA for next generation PONs” – final grade: 93

(18)*   Dima Cherkensky, “Optical correlator for header/token identification” – final grade: 91 (joint supervision with Dr. Uri Mahlab)

(19)*ل  Tomer Cohen, “EDC for non linearities in optical communications” – final grade: 91 (joint supervision with Dr. Uri Mahlab)

(20)* ل Omri Levy, ”OCDMA FP+ASE laser source” – final grade: 94

(21)* ل Ohad Rozen, “EDC for self phase modulation in optical communications”

final grade: 92

(22)*   Yaniv Maroz, “Phase Control Scheme (PCS) for coherent Multi Access Interference noise cancellation – final grade: 91.

(23)*    Ella Katsenelson, Adaptive MLSE Electrical Dispersion Equalization for Dynamic Future Optical Networks – final Grade: 92.

(24)*   Claudia Weinberg, “SOA dynamics in optical networks – implementation” – non thesis track.

(25)*  Alik Gorstein, Optical Differential Phase Shift Keying”.

(26)*   Nir Shefi, “Direct modulation Optical OFDM ” – final grade: 95

(27)*   Yanir London, “Minimum PAPR in Optical OFDM” – final grade: 88

(28)*   Tomer Yemini, “Detection of narrow band signals embedded in broad band high power noise by means of low frequency sampling” – final grade: 96.

(29)*   Benny Shamai, “Joint Maximum Likelihood Sequence Estimation (J-MLSE) in optical communications” – final grade: 90

(30)*   Inbal Kashany,” Adaptive Optical OFDM with SOA modulation” – final grade: 92

(31)*   Sveta Paster,” Pre-compensation based Optical OFDM” – final grade: 94

(32)*   Johana Asoulin, “Post-processing in Optical OFDM” – final grade: 91

(33)*   Yehu Sapir, “Serum Potassium Level Estimation using Electro-Cardiography (ECG) signal processing,” (joint supervision with Prof. Amir Geva of Ben Gurion University, and Prof. Paul Friedman of Mayo Clinic USA) – final grade: 92

(34)* ل† Yaron Yoffe, “Digital signal processing and implementing advanced communication methods in optical fiber communications” – final grade: 98

(35)*   Eyal Wohlgemuth, “Optical encryption in optical fiber communications” – final grade: 95

(36)* ل† Hananel Faig, “Development of DSP algorithms for high speed optical communications based on VCSELs transmission” – final grade: 98

(37)*   Itay Yahav, “Optical MIMO in Multi-Mode and Multi-Core fibers” – final grade: 89

(38) * ل Moshe Tzur, “Stochastic optimization for Deep Neural Networks and its implementation in optical communications systems” – final grade: 98

(39)*   Roi Cohen, “Cryptoanalysis of spectrally encodedoptical communications systems” – final grade: 98

(40)*  ل Ohad Balaciano, “Modeling and compensation of optical communication signals under random effects and extreme SNR conditions – final grade 93

(41)  ل† Ido Attia, “High speed coherent optical communication over broad band mode locked lasers for photonic encryption”.

(42)  ل  Yarden Yalinevich, “Optical layer encryption”

(43)     Roi Leisnic, “Coherent optical match filtering in optical fading channels”.

 

 

 

 


ل   Meitar program

          Direct course towards Ph.D

*          Thesis accomplished

         Dean Prize

PhD Thesis Supervision

(1)           * Dr. I. Elhanany, “Tbit/sec packet switching control algorithms – development, modeling, and implementation”, thesis accomplished, 2003.

(2)           * Dr. E. Boimovich¥ § ‡, Summa Cum Laude “Next generation Dynamic WDM systems and networks” – thesis accomplished, 2005.

(3)           * Dr. G. Kats, “Electrical signal processing for optical impairments in optical communication systems”, thesis accomplished, 2007.

(4)           * Dr. Moti Albo, “Feedback-enhanced scheduling for self-similar traffic,” joint supervision with Dr. Ben-Shimol, thesis accomplished, 2011.

(5)           * Dr. Alik Gorstein, “Advanced modulation formats and digital signal processing for fiber optic communications”, thesis accomplished, 2014.

(6)           * Dr. Yanir London, “Minimum PAPR in Optical Orthogonal Frequency Division Multiplexing (OOFDM)”, thesis accomplished, 2017.

(7)           * Dr. Nir Shefi, “Advanced Multiple-Input-Multiple-Output (MIMO) transmission techniquers in Multi-Mode and Multi-Core Fiber Communication”, thesis accomplished, 2018.

(8)           * Dr. Tomer Yemini, &Silicon Photonic Devices and Stealthy Transmission Techniques for Optical Communications Systems“, thesis accomplished, 2019.

(9)           * Dr. Yaron Yoffe† ,Â, “Digital signal processing and implementing advanced communication methods in optical fiber communications”, thesis accomplished, 2020.

(10)        * Dr. Gil Paryanti, “Digital phase impairment compensation methods for wideband coherent optical fiber communication systems”, thesis accomplished, 2020.

(11)        *Dr. Hananel Faig, †,fl, “Efficient methods for performance analysis, modeling, and compensation design, for non linear with memory high speed optical communication systems”, thesis accomplishd 2021.

(12)        *Dr. Eyal Wohlgemuth, “Optical encryption in optical fiber communications”, thesis accomplished 2023.

(13)        Ido Attia, †  “High speed coherent optical communication over broad band mode locked lasers for photonic encryption”.

 


* Thesis accomplished

† Direct course towards Ph.D.

¥ New Ph.D. students’ rector distinction award

§ Eshkol orrentip for Ph.D. students (90,000 IS)

‡ 2004 SPIE Scholarship

& 2015 Katzir study grant

 Rector Prize

fl Dean Prize

 

Honors and awards

1991                                       Rector's honor, distinction award for new graduate students

 

1992-1994                              Clore scholarship award on the basis of academic excellence.

                                               This award was granted to only 10 doctoral students in nation

                                               wide competition, and included personal scholarship and grants

                                               to the amount of $ 52,500.

                                               Purpose: PhD studies

 

1994-1995                              Rothchild post-doctoral fellowship award on the basis of academic

                                               excellence. This award was granted to only 16 post- doctoral

                                               candidates in nation-wide competition, and included personal

                                               scholarship and grants to the amount of $ 30,000.

                                               Purpose: Postdoc at Stanford University

 

1994-1995                                             Fulbright post-doctoral fellowship award, granted by the United

States - Israel Educational Foundation (USIEF). This award was

granted in nation-wide competition, and included personal

scholarship to the amount of $ 15,000.

                                               Purpose: Postdoc at Stanford University

 

2005                                       Distinguished Lecturer, Faculty of Engineering Science, Ben

                                               Gurion University

 

2015                                       Chairman of the Cathedra for Electrooptics, in the memory of

                                               Reuven and Frances Feinberg

 

Grants

1996-1999                              Title: "Free-Space Optical Network for Parallel Computing,

                                               Prototype Development".

                                               Funded by: The Ministry of Science.

                                               Project Coordinator: Prof. Roni Agranat (Hebrew Univ).

Principal investigators: Prof . A. Agranat, (Hebrew Univ.), Prof. L. Rodolph (Hebrew Univ.), Dr. D. Sadot (Ben Gurion Univ.).

                                               Contract no.: 8535-2-96.

                                               Amount (for Dr. Sadot): $85,000

 

1997-1998                              Title: Next-Generation Optical Networks and Devices.

                                               Funded by: The Wolfson Foundation.

                                               Principal Investigator: Dr. Dan Sadot.

                                               Amount: $128,000

 

1997-2000                              Title: Tbit/sec Optical ATM Communications Networks: Dynamic

                                               WDM Technology and Devices.

                                               Funded by: The Ministry of Science.

                                               Project Coordinator: Dr. Dan. Sadot (Ben Gurion Univ.).

                                               Principal investigators: Dr. Dan Sadot (Ben Gurion Univ.), Prof.

                                               Moshe Tur (Tel Aviv University), Prof. Yaron Silberberg

                                               (Weizmann Institute of Science), Dr. Shlomi Dolev (Ben Gurion

                                               University), Prof. Amotz Bar Noy (Tel Aviv University), and Dr.

                                               Shay Kutten (Technion).

                                               Contract no.: 9404-1-97

Amount (for Dr. Sadot, project coordinator, including university

matching): $750,000

 

1999-2002                              Title: "Development of a tunable laser in an electroholographic

                                               crystal for WDM networks".

                                               Funded by: The Ministry of Science.

                                               Project Coordinator: Prof. Roni Agranat (Hebrew Univ).

Principal investigators: Prof . A. Agranat, (Hebrew Univ.), Dr. D.

Sadot (Ben Gurion Univ.), Prof. M. Segev (Technion),

                                               Contract no.: 1193-1-98.

                                               Amount (for Dr. Sadot): $250,000

 

2004-2007                              Title: "Improved optoelectronic transmission and reception

                                               methodsfor high spectral efficiency and robustness against

                                               impairments in optical fiber communication".

                                               Funded by: The Israel Science Foundation (ISF).

                                               Principal investigator: Prof . Dan Sadot

                                               Contract no. 322/04

                                               Amount 400,000 NIS

 

2006-2008                              Title: "DyFON-dynamic future optical networks".

                                               Funded by: The Israel ministry of industry and commerce. Joint

                                               proposal with ECI Telecom

                                               Principal investigators: Prof . Dan Sadot, Dr. Uri Mahlab (ECI

                                               Telecom, Dr. Yehuda Benshimol (Ben Gurion University).

                                               Contract no. 37130

                                               Total amount 2,900,000 NIS.

                                               Amount (for Prof. Sadot) 300,000 NIS

 

2007-2010                              Title: "MultiPhy –multiple optical channels multiplexing".

                                               Funded by: MultiPhy Ltd.

                                               Principal investigators: Prof . Dan Sadot

                                               Contract no. 84760101

                                               Amount (for Prof. Sadot) 275,000 NIS

 

2009-2011                              Title: " LC100G-TR, Low cost 100G WDM transceiver ".

                                               Funded by: The Israel ministry of industry and commerce. Joint

                                               proposal with ECI Telecom

                                               Principal investigators: Prof . Dan Sadot, Dr. Uri Mahlab (ECI

                                               Telecom).

                                               Contract no. 41909

                                               Total amount 2,900,000 NIS.

                                               Amount (for Prof. Sadot) 300,000 NIS

 

2009-2013                              Title: " Advanced Photonic Communication Techniques for

                                               Sustained Growth of the Ultra-broadband Internet ".

                                               Funded by: The Israel Science Foundation (ISF).

                                               Principal investigator: Prof. Moshe Nazarathy, Prof . Dan Sadot

                                               Contract no. 1559/09

                                               Total amount: 1,000,000 NIS

                                               Amount (for Prof. Sadot) 450,000 NIS

 

2010-2015                              Title: " TeraSanta MAGNET” Consortsium.

                                               Funded by: The Israel ministry of industry and commerce.

                                               Principal investigators of Ben Gurion University: Prof . Dan

                                               Sadot  

                                               Contract no. 44176

                                               Amount (for Prof. Sadot) 1,000,000 NIS

 

2011-2019                              Title: "MultiPhy – DSP in high speed optical communications".

                                               Funded by: MultiPhy Ltd.

                                               Principal investigators: Prof . Dan Sadot

                                               Contract no. 8718251

                                               Amount (for Prof. Sadot) 1,200,000 NIS

 

2015-2017                              Title: “Cyber Optic Encryption Stealthy System”

                                               Funded by: The Israeli ministry of industry and commerce –KAMIN program

                                               Principal investigators: Prof. Dan Sadot and Prof. Zeev Zalevsky

                                               (of Bar Ilan University)

                                               Contract no. 53362

                                               Amount (for Prof. Sadot,) 675,000 NIS

 

2016-2019                              Title: " PetaCloud” Consortsium.

                                               Funded by: The Israel ministry of industry and commerce.

                                               Principal investigators of Ben Gurion University: Prof . Dan

                                               Sadot  

                                               Contract no. 57894

                                               Amount (for Prof. Sadot) 720,000 NIS.

 

2018-2019                              Title: “Stealthy optical communications forcing on-the-fly optical decryption”

                                               Funded by: Cisco University Research Program Funds

                                               Contract no. CG#1080109

                                               Amount $100,000

 

2018-2021                              Title: “PlastiComm - Optical MIMO over Plastic Optical Fibers”

                                               Funded by: The Innovation Authority –KAMIN program

                                               Principal investigators: Prof. Dan Sadot

                                               Contract no. 62057

                                               Amount 1,200,000 NIS

 

2018-2020                              Title: “Neural networks methods for digital pre-distortion of complex nonlinear transmitters”

                                               Funded by: Intel Corporation, Santa Clara CA

                                               Amount: $150,000

 

2020-2021                              Title: " Optical communication over the atmosphere ".

                                               Funded by: The Innovation Authority – MAGNETON program

                                               Joint project with Civan Advanced Technologies

                                               Principal investigators: Prof . Dan Sadot, Dr. Eyal Shekel (Civan)

                                               Contract no. 69284

                                               Total amount NIS. 1,883,000

                                               Amount (for Prof. Sadot) NIS 566,000

 

2022-2024                              Title: "Optical encryption and steganography".

                                               Funded by: CyberRidge Ltd.

                                               Principal investigators: Prof . Dan Sadot

                                               Amount (for Prof. Sadot) 800,000 NIS

 

2023-2025                              Title: "Next generation laser diodes for post-quantum cryptography".

                                               Funded by: MOST, France-Israel Scientific Research Program

                                               Principal investigators: Prof . Dan Sadot and Dr. Eyal Wohlgemuth

                                               Amount (for Prof. Sadot) 300,000 NIS

 

 

2023-2025                              Title: " Post-quantum secure transmission through user authentication and data encryption ".

                                               Funded by: Italy-Israel R&D Cooperation Program, Israel Innovation Authority

                                               Principal investigators: Prof . Dan Sadot and Dr. Eyal Wohlgemuth

                                               Amount 500,000 NIS

 

 

 

Total amount of research grants funding > NIS 13,500,000

 

Patents

 

  1. D. Sadot and N. S. Kopeika, “Method for the restoration of images disturbed by the atmosphere,” U.S. Patent number 5841911, issued 11/98 (submitted 1995).

 

  1. D. Sadot, D. Majer, and E. Shekel, “Ultra-fast tunable optical filters,” EP0979435A1, EP0979435A4, US6222964, August 1996.

 

  1. D. Sadot, “A system and a method for information security in optical communication networks,” Israel patent no. 123107, Issued 08/01 (submitted January 29, 1998, Israel).

 

  1. J. Nir, I. Elhanany, and D. Sadot, “A new Tbit/sec switching scheme for ATM/WDM networks," Patent Application 126263, September 17 1998, Israel.

 

  1. D. Sadot, and D. Shem-Tov, “A system and a method for information security in optical communication networks,” WO1999039464 A3, January 1998.

 

  1. E. Buimovich, S. Rubin, and D. Sadot, “Characterization of multiple section semiconductor lasers through invoking multiple mode operation,” US20030161370, WO2002013341A2, August 2000.

 

  1. S. Rubin, E. Buimovich, and D. Sadot, “Wavelength tuning optimization of semiconductor lasers,” US20040091008, WO2002039482A2, November 2000.

 

  1. D. Sadot, and H. Joseph, "Measurement of wavelength transients in tunable lasers," U. S. Patent No. 7,283,572 B2, Oct 16, 2007,  Provisional Application Serial No. 60/536,528 filed on January 15, 2004; US Patent US7283572 B2, January 2004.

 

  1. D. Sadot and H. Joseph, "Optical cdma by self-heterodyne filtering, US20090269064, WO2006095354A2, March 2005.

                       

  1. D. Sadot and G. Kats, “A method and apparatus for increasing the capacity of a data communications channel,” EP2168278A1, US8483570, US20100247107, July  2009.

 

  1. D. Sadot, A. Gorstein, G. Kats, and O. Levi, “Method and system for coherent equalization of chromatic dispersion of optical signals in a fiber,” US20120251112, CN102204132A, EP2514093A1, December 2009.

 

  1. D. Sadot , and N. Sheffi “Low Cost Direct Modulation and Coherent Detection Metro Optical OFDM,” PCT/IL2011/000864, US20130315607 A1

 

  1. M. Nazarathy, N. Sigron, A. Gorshtein, and D. Sadot, “Robust Mult-simbol Phase estimation with frequency driftcancellation for coherent and self-coherent optical transmission, US Patent Application 61/357/097.

 

  1. D. Sadot, T. Yemini, and Z. Zalevsky, “Spectral and Temporal Stealthy Fiber-Optic Communication using Sampling and Phase Encoding,  US20140146969, EP2735111A1, July 2011.

 

  1. N. Sheffi, A. Gorshtein, U. Barzilai, G. Kats, and D. Sadot, “Hardware efficient implementation of decision feedback phase estimation for an ultra high speed coherent receiver,“ US Patent  USP 9,628,193, December 2011.

 

  1. A. Gorshtein, and D. Sadot, “Symbol spaced adaptive MIMO equalization for ultra high bit rate optical communication”, US patent 9,426,000, January 2012.

 

  1. O. Levy, A. Gorshtein, G. Katz, and D. Sadot, “Blind Channel Estimation for MLSE Receiver in High Speed Optical Communications” US Patent USP 9,768,914, 2013.

 

  1. D. Sadot, A. Gorshtein, A. Shabtai, “Method and system for coherent equalization of chromatic dispersion of optical signals in fiber”, US patent 9,357,578, WO2014141260 A1, 30822/US/13 ,  March 2013.

 

  1. P. A. Friedman, K. E. Bennet, C. J. Bruce, V. K. Somers, S. J. Asirvatham, M. J. Ackerman, J. J. Dillon,  D. Sadot, Y. Sapir, A. Geva, “Quantifying Potassium Levels Based on Electrocardiogram Data,” US Patent Provisional 61883768, September 2013.

 

  1. G. Dorman, D. Sadot, and A. Gorshtein, “Digital Baud Rate Clock Recovery of Heavily ISI-Induced Signals,” US Patent 14/605,199, January 2014.

 

  1. G. Dorman, D. Sadot, and A. Gorshtein, “Enhanced Equalization based on a Combination of Reduced Complexity MLSE and Linear Equalizer for heavily ISI-induced signals”, US Patent 61/946,960, 9,825,785, March 2014.

 

  1. A. Gorshtein, D. Sadot, and G. Dorman, “MIMO equalization optimized for baud rate clock recovery in coherent 112Gbit/sec DP-QPSK Metro systems,” US Patent 61/951,016, March 2014.

 

  1. D. Sadot, Z. Zalevsky, and Tomer Yemini” All-optical silicon-photonic constellation conversion and constellation demultiplexing in I-Q space,” USP201462058689, October 2014.

 

  1. E. Sonkin, D. Sadot, G. Kats, and O. Vidal, “Analog optical pre-distortion of PAM4 and high order modulated signals”, US Patent 15/242,502, Aug 2015.

 

  1.  T. Zortea, D. Sadot, and R. Romano, “Electro-Optical Finite Impulse Response Transmit Filter,” US Patent US20170054510A1, Aug 2015.

 

  1. D. Sadot and Y Yoffe, “A novel low resolution ADC-DSP optimization based on non-uniform quantization and MLSE for data centers interconnects, Patent Provisional PCT WO 2017/118987 A1, 62/275.269, January 2016.

 

  1. Y. London and D. Sadot, “Inclusive Modeling and Digital Compensation for Coupling Impairments of High-Speed Coupled Electrical Microstrip Traces in Data Centers Connections “, US Patent 15/684,184, August 2016.

 

  1. P. A. Friedman, K. E. Bennet, C. J. Bruce, V. K. Somers, S. J. Asirvatham, M. J. Ackerman, J. J. Dillon,  D. Sadot, Y. Sapir, A. Geva,Z. Attia, “Processing physiological electrical data for analyte assessments”, US Patent Application PCT/US 2016/063615, December 2016.

 

  1. G. Parianty, D.Sadot, “A Novel unified pre-distortion method for compensation of Mach-Zehnder Modulator impairments, US Patent Provisional 62/492,196, April 2017.

 

  1. Y. Yoffe, D. Sadot, “Digitally Enhanced DAC: Low-resolution digital pre-compensation for high speed optical links “, US Patent Provisional 62/580,475, November 2017.

 

  1. D. Sadot, and N. Sheffi, “Energy-efficient power and offset allocation of spatial multiplexing in multimode fiber”, US Patent 15/873,077, January 2018.

 

  1. Z. Zelevsky, D. Sadot, T. Yemini, and Sagie Asraf, “Ultrahigh resolution photonicspectral processor,” US Patent Provisional 62/639,519, March 2018.

 

  1. D. Sadot, E. Wohlgemuth, Y. Yoffee, “Optical communication system using moe-locked frequency comb and all-optical phase encoding for spectral and temporal encrypted and stealthy transmission and for optical processing gain applications,“ Provisional 62/873912, July 2019.

 

  1. E. Wolgemuth, E. Keler, I. Attia, G. Alin, H. Shalom, and D. Sadot, “Multi-dimentional low-cost interlocking of mode-locked lasers using optical beating and peak detection“, US patent provisional 63435559, December 2022.

 

 

 

Academic Responsibilities

Chairman:

 

Aug 2014 - present                Chairman of the Cathedra for Electrooptics, in the memory of Reuven and Frances Feinberg

           

Aug 2007-Aug 2013               Chairman of the Electrical and Computer Engineering Department

 

Aug 2006-Aug 2008               Vice Dean of the Faculty of Engineering

 

Aug 2004-Aug 2007               Deputy Chairman of ECE Dept. at Ben Gurion University

 

Aug 2003-Aug 2007               Chairman of the committee of graduate education of the ECE Dept. at Ben Gurion University

 

Oct 2005 - Jan 2007               Chairman of ECE Dept. self evaluation committee

 

Oct 2000 - Oct 2001               Chairman of the Dept. of Communications Systems Engineering

                                               Ben Gurion University of the Negev

                                              

 

International Visibility

March 2020                            Session chairman, OFC 2020, San Diego, CA.

 

September 2019                    Session chairman, ECOC 2019, Dublin, Ireland.

 

September 2018                    Session chairman, ECOC 2018, Rome, Italy.

 

September 2017                    Session chairman, ECOC 2017, Gothenburg, Sweden.

 

June 2010                               Session chairman, SPPCOM, Karlsruhe, Germany.

 

September 2004                    Israel Nominee in the European Union COST action 291

to July 2009

 

December 2004                     Session chairman in the IEEE/ICECS 2004

 

1996-2000                                             Founder and Chairman of the IEEE/LEOS Chapter in Israel

 

April 2000                               Session chairman of the 2000 IEEE 21st Convention of IEEE in

                                               Israel, Session Lasers and Electrooptics

 

December 1998                     Session chairman of the IEEE/LEOS’98 11th Annual Meeting,

                                               Session FP, Devices for Optical Networking, held Orlando Florida

 

March 1997                            Session chairman of the 10th Meeting on Optical engineering in

                                               Israel, Session 7.6, Optical Communications and Storage

 

Invited Papers:                       Journals - [17], [22],[25],[31],[33] in list of publications.

                                                Conferences - [1] – [22]                                 

Best Paper Awards                 Conferences - [42], [43] in list of publications.

 

 

Technical Program Committee (TPC) member:

 

OFC 2021 -      Optical Fiber Communications Conference, San Francisco CA, March 2021.

 

ECOC 2020 - European Conference in Optical Communications, Brussels, Belgium, September 2020.

 

OFC 2020 -      Optical Fiber Communications Conference, San Diego CA, March 2020.

 

ECOC 2019 - European Conference in Optical Communications, Dublin, Ireland, September 2019.

 

OFC 2019 – Optical Fiber Communications Conference, San Diego CA, March 2019.

 

ECOC 2018 - European Conference in Optical Communications, Rome, Italy, September 2018.

 

ECOC 2017 – European Conference in Optical Communications, Gothenburg. Sweden, September 2017.

 

OSA SPPCOM (Signal Processing in Photonic Communications), Toronto Canada, June 2011,

 

OSA-SPPCOM (Signal Processing in Photonic Communications), Karlsruhe Germany, June 2010,

 

LEOS'2000 13th Annual Meeting, Puerto Rico, November 2000.

 

LEOS'99 12th Annual Meeting, San Francisco CA, November 1999.

 

LEOS’98 11th Annual Meeting, Orlando FL, December 1998.

 

10th Meeting on Optical engineering in Israel, 1997

 

LEOS’95 8th Annual Meeting, San Diego, 1995.

 

 

Reviewer 

 

IEEE/OSA Journal of Lightwave Technology

IEEE/LEOS Photonics Technology Letters

IEEE Journal of Selected Areas in Communications

IEEE Transactions on Communications

IEEE Transaction on Wireless Communications

IEEE Journal of Quantum Electronics

IEEE Communications Magazine

IEE Proceedings

OSA Journal of the Optical Society of America A

OSA Applied Optics

OSA Optics Letters

OSA Optics Express

OSA Journal of Optical Networks

SPIE Optical Engineering

Fiber and Integrated Optics

Optics Communications

Journal of Optics A: Pure and Applied Optics

BSF – Binational Science Foundation

ISF – Israel Science Foundation, reviewing grant proposals

Patent Committee Member – B. G. Negev Technologies and Applications

Singapore Agency for Science, Technology & Research.

Consultant

February 2022                        CyberRidge

To Present                              Founder, CEO, and Board Director

 

September 2020                    Banias Labs

To October 2022                    Founder, Board Director

 

November 2006                     MultiPhy Networks

To December 2018                 Founder, Board Director, and CTO

 

February 2006                        ECI Telecom

2010                                       Consultant

 

September 2000                    Xlight Photonics Inc.

to September 2003                Founder, President, Board Director,  and CTO

 

November 1999                     TeraCross Ltd.

To November 2002                Founder, Board Director, and CTO

 

July 1999                                Bell-Laboratories – Lucent Technologies, Holmdel NJ

to September 1999                Optical Enterprise Networks Research

 

November 1997                     Chiaro Networks

to April 2000                          Consultant and Member

 

January 1998                          Chromatis Networks

to June 1998                          Consultant and Advisory Board Member

 

Publications

In Journals

 

 

       1.       D. Sadot and N. S. Kopeika, “Forecasting optical turbulence strength on the basis of macroscale meteorology and aerosols: models and validation,” Optical Engineering, Vol. 31, No. 2, pp. 200-212, February 1992.

       2.       D. Sadot and N. S. Kopeika, “Imaging through the atmosphere: practical instrumentation-based theory and verification of aerosol modulation transfer function,” J. Opt. Soc. Of Amer. A, Vol. 10, No. 1, pp. 172-179, January 1993.

       3.      D. Sadot, A. Dvir, I. Bergel and N. S. Kopeika, “Restoration of thermal images distorted by the atmosphere, based upon measured and theoretical atmospheric modulation transfer function,” Optical Engineering, 33, No. 1, pp. 44-53, January 1994 (Special section on Infrared Technology I).

       4.      D. Sadot, G. Kitron, N. Kitron, and N. S. Kopeika “Thermal imaging through the atmosphere: atmospheric MTF theory and verification,” Optical Engineering, 33, No. 3, pp. 881-888, March 1994.

       5.      D. Sadot, D. Shemtov, and N. S. Kopeika, “Theoretical and experimental investigation of image quality through an inhomogeneous turbulent medium,” Waves in Random Media, 4, No. 2, pp. 177-189, 1994.

       6.      S. Arnon, D. Sadot, and N. S. Kopeika, “Analysis of optical pulse distortion through clouds for satellite to earth adaptive optical communication,” J. of Modern Optics, 41, pp. 1591-1606, August 1994.

       7.       D. Sadot, A. Melamed, N. Dinur, and N. S. Kopeika, “Effects of aerosol forward scatter on long and short exposure atmospheric coherence diameter,” Waves in Random Media, 4, No. 4, pp. 487-498, October 1994.

       8.      S. Arnon, D. Sadot, and N. S. Kopeika, “Simple mathematical models for temporal, spatial, angular, and attenuation characteristics of light propagating through the atmosphere for space optical communication using Monte-Carlo simulations,” J. of Modern Optics, 41, pp. 1955-1972, October 1994.

       9.      D. Sadot and N. S. Kopeika, “Effects of absorption attenuation on image quality through a particulate medium,” Applied Optics, 33, No. 30, pp. 7107-7111, 20 October, 1994.

      10.     D. Sadot, S. R. Rotman, and N. S. Kopeika, “Comparison between high-resolution restoration techniques of atmospherically distorted images,” Optical Engineering, 34, pp. 144-153, January 1995.

      11.     D. Sadot and N. S. Kopeika, “Effect of practical aerosol forward scatter of infrared and visible light on atmospheric coherence diameter,” Optical Engineering, 34, pp. 261-268, January 1995.

      12.     D. Sadot, N. S. Kopeika, and S. R. Rotman, “Incorporation of atmospheric blurring effects in target acquisition modeling,” Infrared Physics and Technology, 36, pp. 551-564, February 1995.

      13.     D. Sadot, G. Lorman, R. Lapardon, and N. S. Kopeika, “Restoration of thermal images distorted by the atmosphere, using predicted atmospheric modulation transfer function,” Infrared Physics and Technology, 36, pp. 565-576, February 1995.

      14.     N. S. Kopeika and D. Sadot, “Imaging through the atmosphere: practical instrumentation-based theory and verification of aerosol MTF: Reply to Comment,” J. Opt. Soc. Of Amer. A, 12, no. 5, pp.1017-1023, May 1995.

      15.     D. Sadot, A. Rosenfeld, G. Shuker, and N. S. Kopeika, “High resolution restoration of images distorted by the atmosphere, based upon average atmospheric MTF,” Optical Engineering, 4, no. 6, pp. 1799-1807, June 1995.

      16.     D. Sadot, N. S. Kopeika, and S. R. Rotman, “Target acquisition modeling for contrast-limited imaging: effects of atmospheric blur and image restoration,” J. Opt. Soc. Of Amer. A, 12, no. 11, pp. 2401-2414, November 1995.

      17.     D. Sadot, S. Shamriz, I. Sasson, I. Dror, and N. S. Kopeika, “Prediction of overall atmospheric MTF with standard weather parameters: comparison with measurements with two imaging systems,” INVITED PAPER, Optical Engineering,  3, no. 11,  pp. 3239-3248,  November 1995.

      18.     D. Sadot, O. Zaarur, and S. Zaarur, “A technique for active measurement of atmospheric transmittance using an imaging system; implementation at 10.6 m wavelength,” Infrared Physics and Technology, 36, pp. 1105-1114, 1995.

      19.     T.K. Chiang, S. K. Agrawal, D. Mayweather, D. Sadot, and L. G. Kazovsky, “Implementation of STARNET: a WDM Computer Network,” IEEE Journal on Selected Areas in Communications, 14, no. 5, pp. 824-839, June 1996.

      20.     D. Sadot, S. K. Agrawals, and L. G. Kazovsky, “STARNET II – an optically-amplified  direct-detection WDM computer communications network,” IEEE/LEOS Photonics Technology Letters, 8, no. 9, pp. 1235-1237, September 1996.

      21.     D. Sadot, and L. G. Kazovsky, “Power budget of STARNET II – an optically-amplified direct-detection WDM network with subcarrier control,” IEEE Journal of Lightwave Technology, 15, no. 9, pp. 1629-1635, September 1997.

      22.     D. Sadot, “Ultra-fast tunable fiber-loop optical filters for dense WDM applications”, INVITED PAPER, Fiber and Integrated Optics, 16, no. 3, pp. 227-236, 1997.

      23.     D. Sadot, and A. Mekkittikul, “Compact optical WDM/ATM switch with an aggregate 4-Tbit/s throughput”, Fiber and Integrated Optics, 17, no. 2, pp. 95-112, 1998.

      24.     D. Sadot, “High speed tunable fiber loop lasers for dense WDM systems,” Optical Engineering, 37, no. 6, pp. 1770-1774, June 1998.

      25.     D. Sadot and E. Boimovich, “Tunable optical filters for dens WDM networks,” INVITED PAPER, IEEE Communications Magazine, 36, no. 12, pp. 50-55, 1998.

      26.     N. S. Kopeika,  I. Dror, and D. Sadot “Causes of atmospheric blur: comment on atmospheric scattering effect on spatial resolution of imaging systems,” J. of the Optical Society of America A, 15, no. 12, pp. 3097-3106, December 1998.

      27.     J. Nir, I. Elhanany, and D. Sadot, “A new Tbit/sec switching scheme for ATM/WDM networks,” Electronics Letters, 35, no. 1, pp. 30-31, January 1999.

      28.     D. Sadot, U. Mahlab, and V. Bar Natan, “A new method for developing optical CDMA address code sequences using the genetic algorithm,” Optical Engineering, 38, no. 1, pp. 151-156, January 1999.

      29.     D. Sadot, P. Szilagyi, and A. Shkiler, “Double security level in optical communication systems using combined modulation formats,” Fiber and Integrated Optics, 18, no. 4, pp. 199-209, 1999.

      30.     B. Pesach, G. Bartal, E. Refaeli, A. J. Agranat, J. Krupnik, and D. Sadot, “Free space optical cross-connect switch by the use of electroholography, “Applied Optics, 39, no. 5, pp. 746-758, Feb 10, 2000.

      31.     I. Elhanany, and D. Sadot, “A contention-free Tbit/sec packet-switching architecture for ATM over WDM networks,” INVITED PAPER, IEEE/IEICE Transactions on Communications, joint special issue on Recent Progress in ATM Technologies, E83-B, no. 2, pp. 225-230, February 2000.

      32.     D. Sadot, and I. Elhanany, “Optical switching speed requirements for Terabit/sec packet over WDM networks,” IEEE/LEOS Photonics Technology letters, 12, no., 4, pp. 440-442, April 2000

      33.     I. Elhanany, J. Nir, and D. Sadot, “A Contention-Free Packet Scheduling Scheme for Provision of Quality-of-Service in Tbit/sec WDM Networks,” INVITED PAPER, SPIE Optical Networks Magazine pp. 19-24, July 2000.

      34.     E. Boimovich, S. Rubin, and D. Sadot, “Impact of modulation index on orrent crosstalk in optical switched systems,” Fiber and Integrated Optics, 20, no. 3, pp. 287-293, May 2001.

      35.     I. Elhanani, M. Kahane, and D. Sadot, “Packet Scheduling Challenge in Next-Generation Multi-Terabit Networks,” IEEE Computers Magazine, pp. 104-106, April 2001.

      36.     I. Elhanany, and D. Sadot, “Rmber generator has a predefined distribution”, Electronic Design, 49, no. 1, pp. 132-134, Jan 8, 2001.

      37.     E. Boimovich, D. Sadot, and S Rubin, “Inclusive modeling tool for homodyne crosstalk in optical networks,” Optical Engineering, 40, no. 6, pp. 1065-1070, June 2001.

      38.     G. Kats, and D. Sadot, “ASE noise reduced optical receiver based on MZI diversity scheme,” Fiber and Integrated Optics, 20, no. 6, pp. 547-551, November 2001.

      39.     D. Sadot, Y. Nachmani, A. Bar-Noy, and S. Kutten “Next generation Tbit/sec routers and switches: traffic modeling, scheduling algorithms, and simulations,” J. of High Speed Network, 11, no. 2, pp. 89-102, 2002.

      40.     G. Kats and D. Sadot, “Inclusive BER Analysis for Coherent Optical CDMA Systems,” Optical Engineering, 41, no. 6, pp. 1227-1231, June 2002.

      41.     D. Shem Tov and D. Sadot, “A system and a method for information security in optical communication networks”, Optical Engineerig. 41, no.7, pp. 1621-1630, July 2002.

      42.     I. Elhanany, D. Sadot, “Analysis of Non-Uniform Cell Destination Distribution in Virtual Output Queuing Systems,” IEEE Communications Letters, 6, no. 9, pp. 367-369, September 2002.

      43.     S. Rubin, E. Buimovich, G. Ingber, and D. Sadot, “Implementation of an ultra-fast widely-tunable burst-mode 10Gbps transceiver,”Electronics Letters, 38, no. 23, pp. 1462-1463, November 2002.

      44.     I. Elhanany and D. Sadot,” DISA: a robust scheduling algorithm for scalable crosspoint-based switch fabrics,” IEEE Journal on Selected Areas in Communications,” 21, no. 4, pp. 535-545, May 2003, Special Issue on “High Performance Optical/Electronic Switches/Routers for High Speed Internet”.

      45.     E. Buimovich and D. Sadot, “Physical limitations of tuning time and system considerations in implementing fast tuning of GCSR lasers,” IEEE/OSA Journal of Lightwave Technology, 22, no. 2, pp. 582-588, February 2004.

      46.     E. Buimovich and D. Sadot, “Impact of large signal thermal FM response on implementing nanosecond tuning in GCSR lasers, Electronics Letters, 40, no. 5, pp. 307-309, March 2004.

      47.     H. Joseph, and D. Sadot, “A novel self heterodyne method for combined temporal and spectral high resolution measurement of wavelength transients in tunable lasers,” IEEE Photonics Technology Letters, 16, no. 8, pp. 1921-1923, August 2004.

      48.     T. Battat, and D. Sadot, “ Experimental and theoretical investigation of M-array Pulse Amplitude Modulation transmission for reach extension,” Fiber and Integrated Optics, 24, no. 1, January 2005.

      49.     E. Buimovich, and D. Sadot, “Burst mode receiver for packet switching networks,” IEEE Transactions on Communications, 53, no. 5, pp. 899-904, May 2005.

      50.     H. Joseph, and D. Sadot, “Implementation of a novel self-heterodyne filtering method by wavelength shift keying modulation for optical CDMA,” IEEE Photonics Technology Letters, 17, no. 6, pp. 1346-1349, June 2005.

      51.     E. Buimovich, and D. Sadot, “Inclusive Study of the Effect of Thermal Chirp on Interferometric Homodyne Crosstalk Induced Penalty in Directly Modulated DFB Laser Communication Systems,” IEEE/OSA Journal of Lightwave Technology, 23, no. 9, pp. 2662-2672, September 2005.

      52.     G. Kats, and D. Sadot, “Minimum BER Criterion for Electrical Equalizer in Optical Communication System,” IEEE/OSA Journal of Lightwave Technology, special issue on Optical Signal Processing, 24, no. 7, pp. 2844-2850, July 2006.

      53.     G. Kats, D. Sadot, and J. Tabrikian, “Electrical Dispersion Compensation Equalizers in Optical Long-Haul Direct- and Coherent-Detection Systems,” IEEE Transactions on Communications, 54, no. 11, pp. 2045-2050, November 2006.

      54.     G. Paryanti, D. Sadot. V. Lyandres, “Optimal Source Matching in Optical Code Division Multiple Access,”  IEEE/OSA Journal of Lightwave Technology, 24, no. 11, pp. 4223-4227, November 2006.

      55.     J. Gurfinke, D. Sadot, and M. Glick, “Dynamic control analysis for semiconductor optical amplifier dynamics in optical network application,” Optical Engineering, 46, no. 3, March 2007.

      56.     E. Buimovich, and D. Sadot, “Electronic Filtering of Interferometric Homodyne Crosstalk in WDM Systems with Absolute Frequency Reference,” Fiber and Integrated Optics,” 26, no. 2, pp. 73-78, March 2007.

      57.     G. Kats, and D. Sadot, “Radial Basis Function Network Equalizer for optical communication OOK system,” IEEE/OSA Journal of Lightwave Technology.25, no. 9, pp. 2631-2637, September 2007.

      58.     G. Kats, and D. Sadot. “Time division multilevel multiplexing communication method,” IEEE Photonics Technology Letters, 19, no. 20, pp. 1619-1621, October 2007.

      59.     G. Kats, and D. Sadot, “Nonlinear Electrical Dispersion Compensation in Optical Communication System”, ECTI-EEC Trans, 5, no. 2, special issue in communication, pp. 32-35, August 2007.

      60.     G. Kats, and D. Sadot, U. Mahlab, and A. Levy, “Channel Estimation for Maximum-Likelihood in Optical Communication System”, Optical Engineering, 47, no. 4, April 2008.

      61.     G. Kats, and D. Sadot, “Nonlinear Electrical Equalizer with decision feedback for Optical Communication OOK System,” IEEE Transactions on Communications, 56, no. 12, pp. 2002-2006, Decmber 2008.

      62.     G. Kats, T. Cohen, and D. Sadot, “Optimal Criterion of DFE Coefficients in Optical Communication System” IEE/IET Optoelectronics, 2, no. 2, pp. 96 – 103, 2008.

      63.     G. Kats, and D. Sadot, “Wiener Solution of Electrical Equalizer Coefficients in Lightwave Systems,” IEEE Transactions on Communications, 57, no. 2, February 2009.

      64.     A. Alfandary, O. Levy, G. Katz, Y. Maroz, and D. Sadot, “Implementation of a Novel OCDMA PON Based on Self Heterodyne Filtering,”, IEEE/OSA Journal of Lightwave Technology, 27, no.14, pp. 2809-2816, July 2009.

      65.     A. Gorshtein, O. Levy, G. Katz, and D. Sadot, “Coherent 100G DP-QPSK DSP with One Sample per Symbol Based on Anti-Aliasing Filtering and Blind Equalization MLSE,” IEEE Photonics Technology Letters, 22, no.16, 1208-1210, August 2010.

      66.     T. Yemini, D. Sadot, and Z. Zalevski, “ Spectral and temporal stealthy fiber-optic communication using sampling and phase encoding,” OSA, Optics Express, 19, no. 22, pp. 20182-20198, October 2011.

      67.     Yanir London and Dan Sadot, “Analysis and mitigation of nonlinearity of Mach-Zehnder modulator in coherent optical OFDM in the presence of PAPR,” IEEE/OSA Journal of Lightwave Technology, 29, no. 21, pp. 3275-3281, November 2011.

      68.     A. Gorshtein, and D. Sadot, “Advanced modulation formats and MLSE based digital signal processing for 100Gbit/sec communication through optical fibers,” Book Chapter in Optical Fibers, InTech Publisher, 2011.

      69.     T. Yemini, D. Sadot, and Z. Zalevsky, “Sampling impairments influence over fiber-optic signal decryption,” in Optics Communications, 291, no. 15, pp. 193-201, 2013.

      70.     A. Gorshtein, and D. Sadot, “Symbol spaced adaptive MIMO equalization for ultra high bit rate metro coherent optical links,“ in IEEE Photonics Technology Letters, 25, no. 5, pp. 414-417, 2013.

      71.     I. Kashany, and D. Sadot, “Low-Cost Adaptive Directly Modulated Optical OFDM based on Semiconductor Optical Amplifier,” in Optical Fiber Technology, 19, no. 5, 501-506, July 2013.

      72.     A. Gorshtein, O. Levy, G. Kats, and D. Sadot, “Blind Channel Estimation for MLSE Receiver in High Speed Optical Communications: Theory and ASIC Implementation,” in Optics Express, 21, no. 19, pp. 21766-21789, September 2013.    

      73.     D. Sadot, G. Dorman, A. Gorshtein, E. Sonkin, and O. Vidal, “Single channel 112Gbit/sec PAM4 at 56Gbaud with digital signal processing for data centers applications,” in Optics Express, 23, no. 2, pp. 991-997, January 2015.

      74.     J. J. Dillon, C. V. DeSimone, Y. Sapir, V. K. Somers, J. L. Dugan, C. J. Bruce, M. J. Ackerman, S. J. Asirvatham, B. L. Striemer, J. Bukartyk, C. G. Scott, K. E. Bennet, S. B. Mikell, D. J. Ladewig, J. Gilles, A. Geva, D. Sadot, and P. A. Friedman,” Noninvasive potassium determination using a mathematically processed ECG: Proof of concept for a novel blood-less, blood test”, Journal of Electrocardiology 48. Pp. 12–18, January 2015.

      75.     A. Gorshtein, N. Sheffi, E. Sonkin, Y. Shachaf, D. Becker, O. Levy, G. Katz, and D. Sadot, “Low cost 112G direct detection metro transmission system with reduced bandwidth (10G) components and MLSE compensation,” in Optics Communications, 338, no.1, pp. 438-446,  March 2015.

      76.     A. Gorshtein, G. Dorman, and D. Sadot, “MIMO equalization optimized for baud rate clock recovery in coherent 112Gbit/sec PM-DQPSK Metro systems” in Optical Fiber Technology, 22, p. 23-27, March 2015.

      77.     T. Yeminy, D. Sadot, and Z. Zalevsky, “All-Optical Silicon-Photonic Constellation Conversion,” in IEEE Photonics Journal, 7, no. 2, April 2015.

      78.     N. Sheffi, and D. Sadot, “Tilted Gaussian beam multiplexer for graded-index multimode fiber in data centers interconnections,” in IEEE Photonics Journal, 7, no. 3, June 2015.

      79.     Y. Yoffe, and D. Sadot, “DSP Enhanced Analog-to-Digital Conversion for High-Speed Data Centers Optical Connectivities,” in IEEE Photonics Journal, 7, no. 4. August 2015.

      80.     Z. I. Attia, C. V. DeSimone, J. J. Dillon, Y. Sapir, V. K. Somers, J. L. Dugan, C. J. Bruce, M. J. Ackerman, S. J. Asirvatham, B. L. Striemer, J. Bukartyk, C. G. Scott, K. E. Bennet, D. J. Ladewig, E. J. Gilles, D. Sadot, A. B. Geva, P. A. Friedman, “Novel bloodless potassium determination using a signal—processed single-lead ECG”, J. of the American Heart Association, 5, January 25, 2016.

      81.     Y. Yoffe, and D. Sadot, “A novel low resolution ADC-DSP optimization based on non-uniform quantization and MLSE for data centers interconnects”, in Optics Express, 24, no. 5, March 2016.

      82.     Y. London and D. Sadot, “Spectrally Fragmented Electrical Dispersion Compensation for High-Speed Microstrip Traces in Data Centers Connections,” in IEEE Photonics Journal, 8, no. 2, April 2016.

      83.     Y. London and D. Sadot, “Inclusive Modeling and Digital Compensation for Coupling Impairments of High-Speed Coupled Electrical Microstrip Traces in 100G OOK and PAM4 Data Center Connections,” in IEEE/OSA Journal of Lightwave Technology, 34, no. 23, December 2016.

      84.     G. Paryanti and D. Sadot, “Pre-Distortion of Mach-Zehnder Modulator using Symmetric Imbalance,” in IEEE/OSA Journal of Lightwave Technology, 35, no. 13, July 2017.

      85.     N. Sheffi and D. Sadot, “Energy-Efficient VCSEL Array using Power and Offset Allocation of Spatial Multiplexing in Graded-Index Multimode Fiber,” in IEEE/OSA Journal of Lightwave Technology, 35, no. 11, June 2017.

      86.     Y. London and D. Sadot, “The intensified peak-to-average power ratio of high-speed coupled signals in data center connections”, in Opt. Eng., 56, no. 9, September 2017.

      87.     N. Sheffi, and D. Sadot, “Power Loading in Peak Limited Intensity Modulation Direct Detection Mode Group Division Multiplexing, in IEEE Photonics Journal, November 2017.

      88.     T. Yemini, D. Sadot, and Z. Zalevsky, “Analysis of photonic noise generated due to Kerr nonlinearity in silicon ring resonators,” in Optics Express, 26, no. 1, January 2018.

      89.     E. Wohlgemuth, Y. Yoffe, T. Yemini, Z. Zalevsky, and D. Sadot, “Demonstration of Coherent Stealthy and Encrypted Transmission for Data Center Interconnection”, in Optics Express, 26, no. 6, March 2018.

      90.     A. Asraf, T. Yemini, D. Sadot, and Z. Zalevsky, “Ultrahigh Resolution Photonic Spectral Processor,” in Optics Express, June 2018.

      91.     Z. Attia, P. A. Friedman, D. J. Ladewig, G. C. Satam, J. L. Dugan, Y. Sapir, D. Sadot, A. Geva, V. K. Somers, S. J. Asirvatham, M. J. Ackerman, K. E. Bennet, B. Singh, and J. J. Dillon, “ECG-based Potassium measurements is unaffected by errors in blood potassium measurement during hemodialysis”, in Journal of Clinical and Experimental Nephrology, 3, no. 3:13, 2018.

      92.     E. Wohlgemuth, Y. Yoffe, T. Yemini, Z. Zalevsky, and D. Sadot, “Photonic-layer encryption and steganography over IM/DD communication system”, in Optics Express, 2018.

      93.     Y. Yoffe, E. Wohlgemuth, and D. Sadot, “Low-Resolution Digital Pre-Compensation for High Speed Optical Links based on Dynamic Digital-to-Analog Conversion”, in IEEE/OSA Journal of Lightwave Technology, 2018.

      94.     Y. Yoffe, G. Khanna, E. Wohlgemuth, E. De Man, B. Spinnler, N. Hanik, A. Napoli, and D. Sadot, “Low Resolution Digital Pre-Compensation Enabled by Digital Resolution Enhancer,” INVITED PAPER, in IEEE/OSA Journal of Lightwave Technology, 2018.

      95.     T. Yemini, Z. Zalevsky, and D. Sadot, “Signal-Dependent Pump to Probe Noise Transfer Due to Kerr Nonlinearity in Silicon Ring Resonator,” in J. Opt. Soc. Of Amer. B, 2018.

      96.     D. Sadot, Y. Yoffe, H. Faig, and E. Wohlgemuth, “Digital Pre-Compensation Techniques Enabling Cost-Effective High-Order Modulation Formats Transmission,” INVITED PAPER, in IEEE/OSA Journal of Lightwave Technology, 2018.

      97.     H. Faig, Y. Yoffe, E. Wohlgemuth, and D. Sadot, “Dimensions-ReducedVolterra Digital Pre-Distortion Based On Orthogonal Basis for Band-Limitted Nonlinear Opto-Electronic Components“, in IEEE Photonics Journal, January 2019.

      98.     E. Sonkin, G. Katz, and D. Sadot, “Mach Zender Optimization of PAM-4 Transmission in Data Centers Interconnections,” in Applied Science, February 2019.

      99.     H. Faig, D. Sadot, L. Gantz, and S. Cohen, “An Efficient Stabilization Process for Analog Fractionally-Spaced Equalizers,” in IEEE Photonics Technology Letters, March 2019.

    100.    H. Faig, Y. Yoffe, E. Wohlgemuth, and D. Sadot, “Grading-Optimization for Dimensions Reduced Orthogonal Volterra DPD,” in IEEE Photonics Journal, January 2020.

    101.    H. Faig, B. Vad Pedersen, S. Cohen, L. Ganz, and D. Sadot, “Nonlinear System Identification Scheme for Efficient Compensators Design,” in IEEE/OSA Journal of Lightwave Technology, 2020.

    102.    H. Faig, D. Rohlin, S. Cohen, L. Gantz, and D. Sadot, “A Novel CDR-Based Low-Cost Time-Interleaved-ADC Timing Calibration,” in IEEE/OSA Journal of Lightwave Technology, 2020.

    103.    G. Paryanti and D. Sadot, “Joint Estimation of Multiple Time Interleaved ADC Timing Offsets based on Fourier Series Decomposition,” in IEEE/OSA Journal of Lightwave Technology, 2020.

    104.    G. Paryanti, H. Faig, L. Rokach, and D. Sadot, “A Direct Learning Approach for Neural Network based Pre-distortion for Coherent Nonlinear Optical Transmitter,” in IEEE/OSA Journal of Lightwave Technology, 2020.

    105.    E. Wohlgemuth, Y. Yofee, P. Nadimi Goki, M. Imran, F. Fresi, L. Poti,and D. Sadot, “Demonstration of Stealthy and Encrypted Optical Transmission Below Adjacent 50 GHz DWDM Channels,” in IEEE Photonics Technology Letters, 2020.

    106.    Y. Yoffe, E. Wohlgemuth, and D. Sadot, “Performance optimization of High Speed DACs using DSP,” INVITED PAPER, in IEEE/OSA Journal of Lightwave Technology, 2020.

    107.    G. Paryanti, and D. Sadot, “”Real-Valued Neural Networks for Complex-Valued Impairment Compensation using Digital Up-Conversion,” in IEEE Transactions on Communications, 2020.

    108.    I. Yahav, N. Sheffi, Y. Biofcic, and D. Sadot, “”Multi-Gigabit Spatial-Division Multiplexing Transmission over Multicore Plastic Optical Fiber,” in IEEE/OSA Journal of Lightwave Technology, 2021.

    109.    E. Wohlgemuth, Y. Yofee, R. Cohen, P. N. Goki, M. Imran, F. Fresi, P. D.  Lakshmijyasimha,  P Anandarajah, L. Poti, and D. Sadot, “Stealthy and secured optical coherent transmission using a gain switched frequency comb and multi-homodyne coherent detection, in Optics Express, 2021.

    110.    I. Attia, E. Wohlgemuth, O. Balenciano, R. Cohen, Y. Yoffe, and D. Sadot, “Laser linewidth characterization via self-homodyne measurement under nearly-coherent conditions,” in Optics Express, 2022.

    111.    M. Zur, G. Paryanti, and D. Sadot, “Statistical Wide-Sense Curriculum Learning for Neural Network-Based Pre-Distorter in Coherent Optical Transmittes,” in IEEE Trans. On Communications, 2022.

    112.    E. Wohlgemuth, Y. Yoffe, I. Attia, M. Imran, P. D. Lakshmijayasimha, A. Marotta, P. N. Goki, H. Shalom, F. Fresi, C. Antonelli, A. Mecozzi, P. Anandarajah, L. Pot`ı, and D. Sadot, “A field trial of multi-homodyne coherent detection over multi-core fiber for encryption and steganography, “in IEEE/OSA Journal of Lightwave Technology, 2023.

 

 

 

In Conferences

 

INVITED PAPERS

 

1.            D. Sadot and N. S. Kopeika, “Thermal imaging atmospheric effects and image restoration,” Infrared Spaceborne Remote Sensing II, M. S. Scholl, ed., Proc. SPIE Vol. 2268, pp. 366-385, 1994.

 

2.            O. Hadar, D. Sadot, I. Dror, S. R. Rotman, and N. S. Kopeika, “Contrast-limited target acquisition: atmospheric and motion effects,” Infrared Imaging Systems: Design, Analysis, Modeling, and Testing VI, and Targets and backgrounds: Characterization and Representation, Proc SPIE, Vols. 2469 and 2470, 1995.

 

 

3.            L. G. Kazovsky, D. Mayweather, and D. Sadot, “Combined Optical Modulation Formats and Their Applications,” in IEEE/LEOS ‘95 8th Annual Meeting, San Francisco CA, October 1995.

 

 

4.            N. S. Kopeika, T. Sheayik, Z. Givati, N. Corse, I. Dror, and D. Sadot, “Restoration of satellite images based on atmospheric MTF,” in Imaging Through the Atmosphere, Denver, Colorado, August 4-9, 1996.

 

 

5.            D. Sadot, “Optical WDM switching for ATM networks,” NATO-Mediterranean Dialogue Advanced Research Workshop on Unconventional Optical Elements for Information Storage, Processing and Communications, held 20-23 October 1998, Qiryat Anavim, ISRAEL.

 

 

6.            D. Sadot, “Next generation WDM networks,” URSI 2000, held February 15 2000, Tel Aviv, ISRAEL.

 

 

7.            N. Taranenko­, D. Sadot, S. Gemelos, L. Ketelsen, J. Johnson, and D. Ackerman, “Tunable DBR Laser for High-Speed Optical Switching”, presented in IEEE 2000 CLEO/QELS Conference, Held 7-12/5 2000, San Francisco, CA.

 

 

8.            D.  Sadot, G. Kats, and U. Mahlab, “Advanced trends in electrical dispersion compensation in optical communications OOK systems,” in IEEE ICTON 2006, held June 20 2006, Notingham, England.

 

 

9.            D. Sadot “Advanced trends in optical communications systems,” the 11th meeting on optical engineering and science in Israel, Tel Aviv, March 2007.

 

 

10.          O. Rozen, T. Cohen, G. Kats. D. Sadot, A. Levi, and U. Mahlab, “Vectorial MLSE Equalizer for dispersion compensation in non-linear self phase modulation (SPM) induced optical channe,” in IEEE ICTON 2007, held July 1-5 2007, Rome, Italy.

 

 

11.          O. Rozen, D. Sadot, G. Katz, A. Levy, U. Mahlev, ”Dispersion Compensation of Self Phase Modulation Impairment in Optical Channel using MLSE,” in IEEE ICTON 2008, held June 22-25 2008, Greace.

 

 

12.          D. Sadot, “Channel Capacity and Cost Effectiveness Enhancement Technique Using a Combined Time Division and Multilevel Modulation signals,” the 12th meeting on optical engineering and science in Israel, Tel Aviv, March 2009. 

 

 

13.          A. Gorshtein and D. Sadot, “Advanced Modulation formats and digital signal processing for fiber optic communications,” in IEEE ICTON 2010, held June 27-July 1 2010, Munich, Germany.

 

 

14.          D. Sadot, A. Gorshtein, N. Sheffi, and Y. London, “Advanced Modulation Formats and Digital Signal Processing for Next Generation Fiber Optics Networks”, IEEE ICTON 2011, held June 2011, Stokholm, Sweden.

 

 

15.          D. Sadot, “Low cost advanced Modulation Formats and Digital Signal Processing for Fiber Optics Networks,” the 2011 Brazilian Telecommunications Simposium (Simpósio Brasileiro de Telecomunicações), October 2011, Curitiba Brazil.

 

 

16.          D. Sadot, “Advanced Modulation Formats and Digital Signal Processing for Metropolitan Fiber Optics Networks”, in Advanced Communication Center (ACC) 2011, Tel Aviv University, Tel Aviv, ISRAEL.

 

 

17.          D. Sadot and A. Gorshtein, “Advaced Electronic Equalizers for high-speed Transmission”, in Asia Communications and Photonics (ACP) Conference, Nov. 7-10, 2012 in Guangzhou, China.

 

 

18.          D. Sadot, “Pushing optical fiber communications to the Shannon limit: Advanced modulation formats and digital signal processing, in ICTON 2016, July 10-15, 2016, in Trento, Italy.

 

 

19.          D. Sadot, Y. Yoffe, H. Faig, and G. Paryanti, “Digital pre-compensation techniques enabling cost-efficient high-order modulation formats transmission,” in IEEE/OSA Optical Fiber Communication Conference OFC 2018, March 2018, San Diego CA, USA.

 

 

20.          Y. Yoffe and D. Sadot, “Low power transceivers using low resolution DACs and optimized DSP,” in European Conference on Optical Communications ECOC’2019, September 2019, Dublin, Ireland.

 

 

21.          H. Faig, E. Wohlgemuth, Y. Yoffe, and D. Sadot, “Dimenssions Grading Optimization of Orthogonal Volterra DPD Based on Signal-Projection,” in OSA Signal Processing in Photonic Communications, July 2019, San Fransisco CA, USA.

 

 

22.          D. Sadot, E. Wohlgemuth, I. Attia, O, Balasiano, I. Jonas, E. Keller, and H. Shalom,  “Photonic Layer Encryption in High Speed Optical Communications, in IEEE/OSA Optical Fiber Communication Conference OFC  2023, March 2023, San Diego, CA, USA.

 

CONTRIBUTED PAPERS

 

23.          D. Sadot and N. S. Kopeika, “Prediction of  on the basis of macroscale meteorology including aerosols,” presented at SPIE conference on Propagation Engineering: Fourth in a series, Orlando, FL., April 1991, Proc. SPIE, Vol. 1487, L. Bissonnette and W. B. Miller eds., pp. 40-50, 1991.

24.          D. Sadot and N. S. Kopeika, “Practical model for aerosol MTF,” presented at SPIE conference on Atmospheric Propagation and Remote Sensing, Orlando FL., April 1992, Proc. SPIE, Vol. 1688, A. Kohnle and W. B. Miller, eds., pp. 47-61, 1992.

25.          D. Sadot and N. S. Kopeika, “Effects of aerosol forward scatter on atmospheric coherence diameter: theory and verification, “presented at SPIE conference on Atmospheric Propagation and Remote Sensing, Orlando FL., April 1992, Proc. SPIE, Vol. 1688, A. Kohnle and W. B. Miller, eds., pp. 728-736, 1992.

26.          D. Sadot and N. S. Kopeika, “Thermal imaging through the atmosphere: atmospheric          MTF theory and verification, “presented at SPIE conference on Atmospheric Propagation and Remote Sensing II, Orlando FL., April 1993, Proc. SPIE, Vol. 1968, A. Kohnle and W. B. Miller, eds., 1992.

27.          D. Sadot and N. S. Kopeika, “Theoretical and experimental investigation of image quality through an inhomogeneous turbulent medium, “presented at SPIE conference on Atmospheric Propagation and Remote Sensing II, Orlando FL., April 1993, Proc. SPIE, Vol. 1968, A. Kohnle and W. B. Miller, eds., 1992.

28.          D. Sadot, A. Dvir, I. Bergel, and N. S. Kopeika, “Restoration of images distorted by the atmosphere, based upon measured and theoretical atmospheric modulation transfer function,” presented at 16th conference of the international commission for optics, Budapest, Hungary, August 1993.

29.          D. Sadot and n. S. Kopeika, “High resolution restoration of images distorted by the atmosphere, based upon average atmospheric MTF,” in Atmospheric propagation and remote sensing III, W. A. Flood, and W. B. Miller eds., Opt. Cit., pp. 449-510, 1994.

30.          D. Sadot and n. S. Kopeika, “Effects of aerosol forward scatter on long and short exposure atmospheric coherence diameter,” in Atmospheric propagation and remote sensing III, W. A. Flood, and W. B. Miller eds., SPIE’s International Symposium on Optical Engineering in Aerospace Sensing, Orlando, FL., April 1994.

31.          D. Sadot and N. S. Kopeika, “Restoration of thermal images distorted by the             atmosphere, using predicted atmospheric modulation transfer function,” in Infrared Imaging Systems: Design, Analysis, Modeling, and Testing, G. C. Holst ed., Proc. SPIE,      Vol. 2224, 1994.

32.          D. Sadot, N. S. Kopeika, and S. R. Rotman, “Incorporation of atmospheric blurring effects in target acquisition modeling,” in Infrared Imaging Systems: Design, Analysis, Modeling, and Testing, Opt. Cit., pp. 95-107, 1994.

33.          D. Sadot and N. S. Kopeika, “Active measurements of atmospheric transmittance using a CO2 laser,” in Infrared Technology XX, B. F. Anderson, ed., Proc. SPIE, Vol. 2269, 1994.

34.          D. Sadot and N. S. Kopeika, “High-resolution real-time restoration of atmospherically distorted images,” in Image Reconstruction and Restoration, T. J. Schultz and D. L. Snyder, eds., Proc. SPIE, Vol. 2302, 1994.

35.          D. Sadot, N. S. Kopeika, and S. R. Rotman, “Incorporation of atmospheric blurring effects in target acquisition modeling for visible and near infrared images,” in Infrared Ground Target Modeling & Validation Conf., Aug. 23-25, 1994, Houghton, MI.

36.          D. Sadot, I. Dror, and N. S. Kopeika, Prediction of overall atmospheric MTF with standard weather parameters,” in Atmospheric Propagation and Remote Sensing IV, C. Dainty, ed., Proc. SPIE, Vol. 2471, 1995.

37.          S. K. Agrawal, D. Sadot, T. K. Chiang, D. Mayweather, C. F. Barry, and L. G. Kazovsky, “Toward multimedia applications on the STARNET WDM Network”, in IEEE/OSA ‘95 Summer Topical Meeting, Keystone CO, August 1995.

38.          L. G. Kazovsky, D. T. Mayweather and D. Sadot, “Combined Optical Modulation Formats and Their Applications,” LEOS ‘95 8th Annual Meeting, San Francisco, CA, pp. 353-4, October, 1995.

39.          D. Sadot, A. Mekkittikul, and N. McKeown, “8 Tb/s ATM Interconnection Through Optical WDM Networks,” presented at the Photonics West ’96 Conference on Integrated Optoelectronics Lasers and Applications (OE/LASE’96), San Jose, Ca, January 29- February 2, 1996 and, Proc. SPIE Vol. 2684, p. 186-198, High-Speed Semiconductor Laser Sources, Paul A. Morton; Deborah L. Crawford; Eds., April 1996.

40.          Sadot, S. K. Agrawals, and L. G. Kazovsky, “STARNET II – an optically-amplified direct-detection WDM computer communications network,” presented at the IEEE/OSA 1996 Conference on Lasers and Electro-Optics (CLEO’96), in Multiwavelength Networks, held in Anaheim California, June 2-7, 1996

41.          D. Sadot, “Ultrafast tunable delay-line optical filters for dense WDM communications systems,” SPIE’s 1996 International Symposium on Optical Science, Engineering, and instrumentation, in Distributed and Multiplexed Fiber Optic Sensors VI, Denver, Colorado, August 4-9, 1996.

42.          D. Sadot, “Ultrafast tunable fiber-loop filters for WDM applications,” presented at the IEE colloquium on WDM Technology and Applications, Savoy Place, London, 6 February 1997, Reference No: 1997/036.

43.          D. Sadot, and G. Griffel Ultra-fast tunable fiber-loop filters for dense WDM applications,” presented at the IEEE/OSA 1997 Conference on Lasers and Electro-Optics (CLEO’97), Baltimore, Maryland.

44.          N. S. Kopeika, D. Sadot, and I Dror, “Aerosol light scatter vs turbulence effects in image blur,” IEE EUROPTO , London, September 1997, Proc. SPIE, vol. 3219.

45.          D. Sadot, P. Szilagyi, and A. Shkiler, “Double security level in an incoherent optical communication system using combined modulation formats,” presentated in the IEEE/OSA Optical Fiber Communications Conference (OFC’98), San Jose, California, February 22-27, 1998.  In OFC’98  Technical Digest , pp. 217-219.

46.          D. Sadot, U. Mahlab, and V. Bar Natan, ” A new method for developing optical CDMA address code sequences using the genetic algorithm,” presented in the IEEE International Conference on Communications (ICC’98), Atlanta, Georgia, June 1998, Conference Record, Session 36-4.

47.          I. Elhanany and D. Sadot, “Switching-Resolution Optimization Based on Orthogonal Node Sets for Tbit/sec Packet-Switching over WDM Networks,” presented in the IEEE/IEICE ATM Workshop 99 (ATM-99), held in Kochi-city, Japan, May 24-27, 1999.

48.          J. Nir, I. Elhanany, and D. Sadot, “A new Tbit/sec switching scheme for ATM/WDM networks,” presented in The 7th IEEE Mediterranean Conference on Control and Automation, June 28-30, 1999, Haifa.

49.          A. J. Agranat, G. Bartal, J. Krupnic, B. Pessah, and D. Sadot, “The electroholographic optical switch,” presented in the IEEE/OSA European Conference on Optical Communications (ECOC’99), Nice, France, 26-30 September 1999.

50.          D. Sadot and I. Elhanany, “Optical switching speed requirements for Terabit/sec packet over WDM networks,” presented in the IEEE/OSA European Conference on Optical Communications (ECOC’99), Nice, France, 26-30 September 1999.

51.          D. Sadot, E. Boimovich, and E. Lichtman, “Partially- and fully-coherent crosstalk induced penalty in optical switches,” presented in the IEEE/OSA LEOS’99 12th annual meeting, San Francisco, CA, 8-11 November 1999.

52.          I. Elhanani and D. Sadot, “A Prioritized Packet Scheduling Architecture for Provision of Quality of  Service in Tbit/sec WDM,” presented at the IEEE/ComSoc ICC 2000 Conference, held June 19 2000, New Orleans.

53.          O. Raz, M. Tur, and D. Sadot “Ultra-Fast Tunable Fiber-Loop Filters,” presented in The 4th Israel Conference for Radio Science URSI 2000, Tel Aviv, February 15, 2000.

54.          E. Boimovich, S Rubin, and D. Sadot, “A digitally controlled, fast tunable, wavelength stabilized, laser transmitter with direct modulation,” presented in 2000 IEEE 21st Convention of Electrical and Electronics Engineering in Israel, held 11-12/4 2000, Tel Aviv.

55.          S Rubin, E. Boimovich, and D. Sadot, “The dependence of side modes on modulation index in directly modulated GCSR laser ,” BEST PAPER AWARD, presented in 2000 IEEE 21st Convention of Electrical and Electronics Engineering in Israel, held 11-12/4 2000, Tel Aviv.

56.          E. Boimovich, S Rubin, and D. Sadot, “Impact of modulation index on coherent crosstalk in optically switched networks,” BEST PAPER AWARD, presented in 2000 IEEE 21st Convention of Electrical and Electronics Engineering in Israel, held 11-12/4 2000, Tel Aviv.

57.          S. Rubin, E. Boimovich, and D. Sadot, “The Influence of Modulation Index in Directly Modulated GCSR Lasers,” presented in OSA CLEO/Europe’00 Conference, held 10 – 15 September 2000, Nice, France.

58.          G. Kats, and D. Sadot, “A new fsk-based method for coherent optical CDMA systems,“ presented in IEEE ISSTA 2000, the international symposium on spread spectrum techniques and application, held 6-8 September 2000, New Jersy.

59.          G. Kats, and D. Sadot, “ASE noise reduced optical receiver based on MZI diversity scheme,” presented in the IEEE/LEOS ‘2000 13th Annual Meeting, held November 2000, Puerto Rico,.

60.          I. Elhanany, and D. Sadot, “On discrete-time queues with Markov modulated on-off arrivals and geometric service times,” presented in the 2002 IEEE 22st Convention of Electrical and Electronics Engineering in Israel, held December 1st 2002, Tel Aviv.

61.          I. Elhanany, and D. Sadot, “Performance analysis of a robust scheduling algorithm for scalable input-queued switches”, presented at the IEEE/ComSoc ICC 2003 Conference, held in Anchorage, Alaska, USA on May 11-15, 2003.

62.          I. Elhanany, M. Kahane, and D. Sadot, “On uniformly distributed ON/OFF arrivals in virtual output queued switches with geometric service time,” “, presented at the IEEE/ComSoc ICC 2003 Conference, held in Anchorage, Alaska, USA on May 11-15, 2003.

63.          I. Elhanany, and D. Sadot,” A performance study of virtual output queued switches with heterogeneous bursty traffic,” presented in the 2003 Workshop on High Performance Switching and Routing (HPSR 2003), held in Turin, Italy, June 24-28, 2003.

64.          E. Buimovich and D. Sadot, “Measurement of thermal frequency chirp in directly modulated DFB lasers and thermal transient induced frequency drift during fast tuning in GCSR lasers using frequency discrimination technique,” presented in the IEEE/LEOS ‘2003 16th Annual Meeting, held 26-30 October 2003, Tucson Arizona, USA.

65.          E. Buimovich, and D. Sadot, “AC coupled burst mode receiver for fiber optic burst switching network,” presented in OSA 2004 CLEO Conference, paper CWA9, Held 16-20/5 2004, San Francisco, CA.

66.          E. Buimovich, and D. Sadot, “ Mathematical and Experimental Analysis of Interferometric Crosstalk Noise Incorporating Chirp Effect in Directly Modulated Systems,” in Tyrrhenian International Workshop on Digital Communications 2004, Optical Communication Theory and Techniques, Piza, Italy, October 17-18, 2004.

67.          E. Buimovich, and D. Sadot, “Analysis of tuning time calculations in multiple-section current-injection tunable laser diodes,” in OpNeTec 2004, Piza, Italy, October 18-20, 2004.

68.          M. Kahane, Y. Ben-Shimol, and D. Sadot, “Performance Evaluation of Pseudo Self-Similar Traffic”, in the 11th IEEE International Conference on Electronics, Circuits and Systems, December 13-15, 2004, Tel-Aviv, Israel.

69.          H. Joseph, and D. Sadot, “A Novel Self-Heterodyne Method for Combined Temporal and Spectral High Resolution Measurement of Wavelength Transients in Tunable Lasers,” in OSA 2005 CLEO Conference, held Baltimore PA. May 2005.

70.          H. Joseph, and D. Sadot, “Implementation of a novel self-heterodyne filtering method by wavelength shift keying modulation for optical CDMA,” in OSA 2005 CLEO Conference, held Baltimore PA. May 2005.

71.          G. Kats, D. Sadot, and J. Tabrikian, “Electrical Dispersion Compensation Equalizers in Optical Long-Haul Direct- and Coherent-Detection Systems,” in ICTON 2005, held Barcelona Spain, July 2005.

72.          H. Joseph, and D. Sadot, “Implementation of a novel self-heterodyne filtering method by wavelength shift keying modulation for optical CDMA,” in IEEE/OSA ECOC 2005, Glazgaw, Scotland, September 2005.

73.          G. Kats, and D. Sadot, “Nonlinear Electrical Equalizer for optical communication OOK system,” in IEEE/OSA Optical Fiber Communication Conference OFC 2006, Anehaim, CA, March 2006.

74.          G. Kats, and D. Sadot, “Analytical solution of optimal electrical equalization coefficients in optical communication OOK systems,” in IEEE International Conference on Communications ICC 2006, Istanbul Turkey, June 2006.

75.      G. Pariaynti, D. Sadot. V. Lyandres, “Optimal Source Matching in Optical Code Division Multiple Access,” in IEEE International Conference on Communications ICC 2006, Istanbul Turkey, June 2006.

76.          G. Katz, and D. Sadot, “Nonlinear Electrical Dispersion Compensation in Optical Communication System, “ in IEEE International Symposium on Communications and Information Technology 2006 (ISCIT 2006), Bangkok, Thailand, October 2006.

77.          A. Gorshtein, D. Sadot, G. Kats, O. Levy, “Coherent CD equalization for 111Gbps DP-QPSK with one sample per symbol based on anti-aliasing filtering and MLSE,” in IEEE/OSA Optical fiber Conference OFC 2010, March 2010, San Diego CA.

78.          M. Nazarathy, A. Gorshtein, and D. Sadot, “Doubly-Differential Coherent 100G Transmission Multi-Symbol Decision-Directed Carrier Phase Estimation with Intradyne Frequency Offset Cancellation,” in OSA Signal Processing in Photonic Communications, June 2010, Karlsruhe, Germany.

79.          A. Gorshtein, D. Sadot, G. Kats, and O. Levy, “Coherent Equalization for 111Gbps DP-QPSK with One Sample per Symbol Based on Anti-Aliasing Filtering and MLSE,” in OSA Signal Processing in Photonic Communications, June 2010, Karlsruhe, Germany.

80.          N. Sheffi and D. Sadot, “Low Cost Direct Modulation and Coherent Detection Optical OFDM for Metro Applications,” in IEEE Eilat 2010.

81.          A. Gorshtein, G. Katz, S. D. Sadot, ”Coherent equalization or 100G DP-QPSK with one sample per symbol based on anti-aliasing filtering and MLSE”, in IEEE Eilat 2010.

82.          T. Yemini, D. Sadot, and Z. Zalevski, “Narrowband Information Encryption Using Frequency and Phase Cipher,” in IEEE Eilat 2010.

83.          Y. London and D. Sadot, “Analysis of Nonlinearity of Mach-Zehnder Modulator in Coherent Optical OFDM in the Presence of PAPR, in IEEE Eilat 2010.

84.          Y. London and D. Sadot, “Analysis and mitigation of nonlinearity of Mach-Zehnder modulator in coherent optical OFDM in the presence of PAPR,” in Photonics West, January 2011, San Francisco CA.

85.          N. Sheffi and D. Sadot, “Low cost direct modulation and coherent detection optical OFDM for metro applications,” in Photonic West, January 2011, San Francisco CA.

86.          N. Sigron. I. Zelniker, M. Nazarathy, A. Gorshtein, and D. Sadot, “Ultimate Single-Carrier Recovery for Coherent Detection,” in IEEE/OSA Optical Fiber Communications OFC 2011, March 2011, Los Angeles CA.

87.          A. Gorshtein, D. Sadot, G. Kats, and O. Levi, “Low Cost 112G Direct Detection Metro Transmission System with Reduced Bandwidth (10G) Components and MLSE Compensation,” in OSA Signal Processing in Photonic Communications, June 2011, Toronto, Canada.

88.          A. Gorshtein, and D. Sadot, “Symbol spaced adaptive MIMO equalization for ultra high bit rate coherent optical communication,” in OSA Signal Processing in Photonic Communications, June 2012, Colorado, USA.

89.          G. Paryanti, and D. Sadot, “Analog to digital phase and jitter compensation in high speed base band optical OFDM,” in OSA Signal Processing in Photonic Communications, July 2013, Puerto Rico, USA

90.          Y. Sapir, J. Dilon, C. Bruce, M. Ackerman, S. Asirvatham, V. Somers, K. Bennet, C. Scott, C. DeSimone, S. Mikell, E. Gilles, A. Geva, D. Sadot, and P. Friedman, “ECG Analysis Correlating Electrocardiographic Changes Using Signal-Averaged ECG with Electrolyte Changes in Patients Undergoing Hemodialysis: A Novel “Bloodless Blood Test”, in IDSS, March 2014,  Tel Aviv, Israel.

91.          Y. London and D. Sadot, “Enhanced Fractional Electrical Dispersion Compensation for High-Speed Analog Traces in Data Center Intra-Connections “in OSA Signal Processing in Photonic Communications, July 2014, San Diego, USA

92.          Y. Yoffe, and D. Sadot, Predictive Analog-Digital-Conversion in Fiber Optics Communications,” in 2014 IEEE 28-th Convention of Electrical and Electronics Engineers in Israel, December 2014.

93.          D. Sadot, G. Dorman, A. Gorshtein, E. Sonkin, and O. Vidal, “Single channel 112Gbit/sec PAM4 at 56Gbaud with digital signal processing for data centers applications,” in IEEE/OSA Optical Fiber Communications Conference (OFC) , March 2015, Los Angeles, USA. 

94.          T. Yemini, D. Sadot, and Z. Zalevsky, “All-Optical Silicon-Photonic Modulation Format Conversion, in OASIS 2015, Tel Aviv, Israel.

95.          T. Yemini, D. Sadot, and Z. Zalevsky, “All-Optical Silicon-Photonic Constellation Conversion”, in CLEO/Europe-EQEC 2015, 21-25 June 2015, Munich, Germany.

96.          Y. Yoffe, and D. Sadot, “Low resolution ADC-DSP scheme for Data-Centers PAM-4 Connections Based on Mon-Uniform Quantization and MLSE,” in OSA Signal Processing in Photonic Communications, July 2016, Van Cuver, Canada.

97.          Y. London, and D. Sadot, “Digital Compensation for Coupling Impairments of Coupled Traces in 100G PAM4 Data Center Connections,” in OSA Signal Processing in Photonic Communications, July 2016, Van Cuver, Canada.

98.          Y. London and D. Sadot, “Chromatic dispersion estimation for software defined networks based on the instantaneous power distribution,” in OSA Signal Processing in Photonic Communications, July 2017, New Orleans, USA.

99.          G. Paryanti and D. Sadot, “Novel pre distortion for Mach Zender modulator based on symmetric imbalance,” in OSA Signal Processing in Photonic Communications, July 2017, New Orleans, USA.

100.         E. Wohlgemuth, T. Yemini, Z. Zalevsky, and D. Sadot, Experimental demonstration of encryption and steganography in optical fiber communications, in IEEE/OSA European Conference on Optical Communications ECOC 2017, September 2017, Gothenburg, Sweden.

101.         Y. Yoffe, E. Wohlgemuth, and D. Sadot, “Digitally Enhanced DAC: Low-Resolution Digital Pre-Compensation for High Speed Optical Links,” in IEEE/OSA Optical Fiber Communication Conference OFC 2018, March 2018, San Diego, CA, USA.

102.         H. Faig, Y. Yoffe, and D. Sadot, “Dimensions-Reduced Volterra-Based Digital Pre-Compensation for Band-Limitted Nonlinear Components,” in OSA Signal Processing in Photonic Communications, July 2018, ETH in Zurich, Switzerland.

103.         G. Paryanti, H. Faig, L. Rokach, and D. Sadot, ”Recurrent Neural Network for Pre-Distortion of Combined Nonlinear Optical Transmitter impairments with Memory,” in OSA Signal Processing in Photonic Communications, July 2018, ETH in Zurich. Switzerland.

104.         Y. Yoffe, E. Wohlgemuth, and D. Sadot, “Low Resolution Pre-Compensation for DCI Based on Dynamic Quantization,” in OSA Signal Processing in Photonic Communications, July 2018, ETH in Zurich.

105.         G. Khanna, Y. Yoffe, E. de Man, E. Wohlgemuth, B. Spinnler, S. Calabro, A. Napoli, N. Hanik, and D. Sadot, “Experimental Verification of 400G 64QAM using 4 bits DACs Enabled by Digital Resolution Enhancer,” in IEEE/OSA European Conference on Optical Communications ECOC 2018, September 2018, Rome, Italy.

106.         E. Wohlgemuth, Y. Yoffe, T. Yemini, Z. Zalevsky, and D. Sadot, “Low Cost PAM-4 IM/DD Photonic-Layer Secured Communication for DCI Based on Phase Mask, in IEEE/OSA European Conference on Optical Communications ECOC 2018, September 2018, Rome, Italy.

107.         T. Yemini, S. Asraf, D. Sadot, Z. Zalevsky, “Flexible Photonic Shaping at Ultrahigh Resolution of 125MHz,” in IEEE/OSA Optical Fiber Communication Conference OFC 2019, March 2019, San Diego, CA, USA

108.         H. Faig, D. Sadot, L. Gantz, and S. Cohen, “Non-Linear System Identification Scheme for the Design of Efficient Compensators and Calibrations,” 2019 IEEE Optical Interconnects Conference, April 2019, Santa Fe, New Mexico, USA.

109.         S. Cohen, H. Faig, L Ganz, and D. Sadot, “Robust dithering based stabilization for quantized LMS adaptation”, in IEEE/OSA European Conference on Optical Communications ECOC 2019, September 2019, Dublin, Irland.

110.         H. Faig, S. Cohen, L. Gantz, and D. Sadot, “Low-Cost Time Interleaved ADC Timing Calibration Circuit, in IEEE/OSA Optical Fiber Communication Conference OFC 2020, March 2020, San Diego CA, USA.

111.         M. Tzur, G. Paryanti, and D. Sadot,” Optimization of Recurrent Neural Network-Based Pre-Distorter for Coherent Optical Transmitter via Stochastic Orthogonal Decomposition,” in  OSA Signal Processing in Photonic Communications, July 2020, Montreal Canada.

112.         G. Paryanti, and D. Sadot,” Optical Fiber Equalization of Complex Valued Signals using Real-Valued Neural Networks,” in  OSA Signal Processing in Photonic Communications, July 2020, Montreal Canada.

113.         O. Balasiano, E. Wohlgemuth, I Attia, A. Roizman, T. Falk, R. Faig, A. Shapira, Y. Yoffe, R. Cohen, R. Vered, and D. Sadot, “10 km Retro-reflected Coherent Atmospheric Free Space Optical Communications at 128 Gbps 16-QAM”, in OSA Signal Processing in Photonic Communications, July 2022, Mastricht, Netherland.

114.         I. Attia, E. Wohlgemuth, H. Shalom, and D. Sadot, “Investigation of Chromatic Dispersion in Multi-Homodyne Coherent Detection, in OSA Signal Processing in Photonic Communications, July 2022, Mastricht, Netherland