Publications


Citation counts may be found in my Google Scholar profile.

Journal Papers

  1. Dor Elimelech and Moshe Schwartz,
    The second-order football-pool problem and the optimal rate of generalized-covering codes,
    Journal of Combinatorial Theory Ser. A, 203, pp. 1-27, paper 105834, 2024. (doi)
  2. Han Cai and Moshe Schwartz,
    A bound on the minimal field size of LRCs, and cyclic MR codes that attain it,
    IEEE Trans. on Inform. Theory, 69(4), pp. 2240-2260, April 2023. (doi)
  3. Hengjia Wei and Moshe Schwartz,
    Perfect codes correcting a single burst of limited-magnitude errors,
    IEEE Trans. on Inform. Theory, 69(2), pp. 951-962, February 2023. (doi)
  4. Eyar Ben-Tolila and Moshe Schwartz,
    On the reverse-complement string-duplication system,
    IEEE Trans. on Inform. Theory, 68(11), pp. 7184-7197, November 2022. (doi)
  5. Han Cai, Cuiling Fan, Ying Miao, Moshe Schwartz, and Xiaohu Tang,
    Optimal locally repairable codes: An improved bound and constructions,
    IEEE Trans. on Inform. Theory, 68(8), pp. 5060-5074, August 2022. (doi)
  6. Hengjia Wei and Moshe Schwartz,
    Sequence reconstruction for limited-magnitude errors,
    IEEE Trans. on Inform. Theory, 68(7), pp. 4422-4434, July 2022. (doi)
  7. Dor Elimelech, Hengjia Wei, and Moshe Schwartz,
    On the generalized covering radii of Reed-Muller Codes,
    IEEE Trans. on Inform. Theory, 68(7), pp. 4378-4391, July 2022. (doi)
  8. Niv Beeri and Moshe Schwartz,
    Improved rank-modulation codes for DNA storage with shotgun sequencing,
    IEEE Trans. on Inform. Theory, 68(6), pp. 3719-3730, June 2022. (doi)
  9. Hengjia Wei and Moshe Schwartz,
    On tilings of asymmetric limited-magnitude balls,
    European J. of Combinatorics, 100, pp. 1-21, February 2022. (doi)
  10. Han Cai, Ying Miao, Moshe Schwartz, and Xiaohu Tang,
    A construction of maximally recoverable codes with order-optimal field size,
    IEEE Trans. on Inform. Theory, 68(1), pp. 204-212, January 2022. (doi)
  11. Hengjia Wei and Moshe Schwartz,
    Improved coding over sets for DNA-based data storage,
    IEEE Trans. on Inform. Theory, 68(1), pp. 118-129, January 2022. (doi)
  12. Dor Elimelech, Marcelo Firer, and Moshe Schwartz,
    The generalized covering radii of linear codes,
    IEEE Trans. on Inform. Theory, 67(12), pp. 8070-8085, December 2021. (doi)
  13. Hedongliang Liu, Hengjia Wei, Sven Puchinger, Antonia Wachter-Zeh, and Moshe Schwartz,
    On the gap between scalar and vector solutions of generalized combination networks,
    IEEE Trans. on Inform. Theory, 67(8), pp. 5580-5591, August 2021. (doi)
  14. Hengjia Wei, Xin Wang, and Moshe Schwartz,
    On lattice packings and coverings of asymmetric limited-magnitude balls,
    IEEE Trans. on Inform. Theory, 67(8), pp. 5104-5115, August 2021. (doi)
  15. Yonatan Yehezkeally and Moshe Schwartz,
    Uncertainty and reconstruction with list-decoding from uniform-tandem-duplication noise,
    IEEE Trans. on Inform. Theory, 67(7), pp. 4276-4287, July 2021. (doi)
  16. Han Cai and Moshe Schwartz,
    On optimal locally repairable codes and generalized sector-disk codes,
    IEEE Trans. on Inform. Theory, 67(2), pp. 686-704, February 2021. (doi)
  17. Netanel Raviv, Moshe Schwartz, Rami Cohen, and Yuval Cassuto,
    Hierarchical erasure correction of linear codes,
    Finite Fields and Their Applications, 68, pp. 1-23, December 2020. (doi)
  18. Han Cai, Johan Chrisnata, Tuvi Etzion, Moshe Schwartz, and Antonia Wachter-Zeh,
    Network-coding solutions for minimal combination networks and their sub-networks,
    IEEE Trans. on Inform. Theory, 66(11), pp. 6786-6798, November 2020. (doi)
  19. Yuanyuan Tang, Yonatan Yehezkeally, Moshe Schwartz, and Farzad Farnoud,
    Single-error detection and correction for duplication and substitution channels,
    IEEE Trans. on Inform. Theory, 66(11), pp. 6908-6919, November 2020. (doi)
  20. Han Cai, Ying Miao, Moshe Schwartz, and Xiaohu Tang,
    On optimal locally repairable codes with super-linear length,
    IEEE Trans. on Inform. Theory, 66(8), pp. 4853-4868, August 2020. (doi)
  21. Hao Lou, Moshe Schwartz, Jehoshua Bruck, and Farzad Farnoud (Hassanzadeh),
    Evolution of k-mer frequencies and entropy in duplication and substitution mutation systems,
    IEEE Trans. on Inform. Theory, 66(5), pp. 3171-3186, May 2020. (doi)
  22. Yonatan Yehezkeally and Moshe Schwartz,
    Reconstruction codes for DNA sequences with uniform tandem-duplication errors,
    IEEE Trans. on Inform. Theory, 66(5), pp. 2658-2668, May 2020. (doi)
  23. Han Cai, Ying Miao, Moshe Schwartz, and Xiaohu Tang,
    On optimal locally repairable codes with multiple disjoint repair sets,
    IEEE Trans. on Inform. Theory, 66(4), pp. 2402-2416, April 2020. (doi)
  24. Ohad Elishco, Farzad Farnoud (Hassanzadeh), Moshe Schwartz, and Jehoshua Bruck,
    The entropy rate of some Pólya string models,
    IEEE Trans. on Inform. Theory, 65(12), pp. 8180-8193, December 2019. (doi)
  25. Natalia Silberstein, Tuvi Etzion, and Moshe Schwartz,
    Locality and availability of array codes constructed from subspaces,
    IEEE Trans. on Inform. Theory, 65(5), pp. 2648-2660, May 2019. (doi)
  26. Farzad Farnoud (Hassanzadeh), Moshe Schwartz, and Jehoshua Bruck,
    Estimation of duplication history under a stochastic model for tandem repeats,
    BMC Bioinformatics, 20(64), pp. 1-11, February 2019. (doi)
  27. Netanel Raviv, Moshe Schwartz, and Eitan Yaakobi,
    Rank-modulation codes for DNA storage with shotgun sequencing,
    IEEE Trans. on Inform. Theory, 65(1), pp. 50-64, January 2019. (doi)
  28. Gal Amram, Yair Ashlagi, Amir Rubin, Yotam Svoray, Moshe Schwartz, and Gera Weiss,
    An efficient shift rule for the prefer-max De Bruijn sequence,
    Discrete Mathematics, 342(1), pp. 226-232, January 2019. (doi)
  29. Ohad Elishco, Tom Meyerovitch, and Moshe Schwartz,
    On independence and capacity of multidimensional semiconstrained systems,
    IEEE Trans. on Inform. Theory, 64(10), pp. 6461-6483, October 2018. (doi)
  30. Ronen Karni and Moshe Schwartz,
    Infinity-norm permutation covering codes from cyclic groups,
    IEEE Trans. on Inform. Theory, 64(7), pp. 5219-5230, July 2018. (doi)
  31. Ohad Elishco, Tom Meyerovitch, and Moshe Schwartz,
    On encoding semiconstrained systems,
    IEEE Trans. on Inform. Theory, 64(4), pp. 2474-2484, April 2018. (doi)
  32. Michael Langberg, Moshe Schwartz, and Eitan Yaakobi,
    Coding for the ℓ-limited permutation channel,
    IEEE Trans. on Inform. Theory, 63(12), pp. 7676-7686, December 2017. (doi)
  33. Qiwen Wang, Sidharth Jaggi, Muriel Médard, Viveck R. Cadambe, and Moshe Schwartz,
    File updates under random/arbitrary insertions and deletions,
    IEEE Trans. on Inform. Theory, 63(10), pp. 6487-6513, October 2017. (doi)
  34. Moshe Schwartz and Pascal O. Vontobel,
    Improved lower bounds on the size of balls over permutations with the infinity metric,
    IEEE Trans. on Inform. Theory, 63(10), pp. 6227-6239, October 2017. (doi)
  35. Yonatan Yehezkeally and Moshe Schwartz,
    Limited-magnitude error-correcting Gray codes for rank modulation,
    IEEE Trans. on Inform. Theory, 63(9), pp. 5774-5792, September 2017. (doi)
  36. Siddharth Jain, Farzad Farnoud (Hassanzadeh), Moshe Schwartz, and Jehoshua Bruck,
    Duplication-correcting codes for data storage in the DNA of living organisms,
    IEEE Trans. on Inform. Theory, 63(8), pp. 4996-5010, August 2017. (doi)
  37. Mario Blaum, James S. Plank, Moshe Schwartz, and Eitan Yaakobi,
    Construction of partial MDS and sector-disk codes with two global parity symbols,
    IEEE Trans. on Inform. Theory, 62(5), pp. 2673-2681, May 2016. (doi)
  38. Ohad Elishco, Tom Meyerovitch, and Moshe Schwartz,
    Semiconstrained systems,
    IEEE Trans. on Inform. Theory, 62(4), pp. 1688-1702, April 2016. (doi)
  39. Farzad Farnoud (Hassanzadeh), Moshe Schwartz, and Jehoshua Bruck,
    The capacity of string-duplication systems,
    IEEE Trans. on Inform. Theory, 62(2), pp. 811-824, February 2016. (doi)
  40. Farzad Farnoud (Hassanzadeh), Moshe Schwartz, and Jehoshua Bruck,
    Bounds for permutation rate-distortion,
    IEEE Trans. on Inform. Theory, 62(2), pp. 703-712, February 2016. (doi)
  41. Hongchao Zhou, Moshe Schwartz, Anxiao (Andrew) Jiang, and Jehoshua Bruck,
    Systematic error-correcting codes for rank modulation,
    IEEE Trans. on Inform. Theory, 61(1), pp. 17-32, January 2015. (doi)
  42. Torleiv Kløve and Moshe Schwartz,
    Linear covering codes and error-correcting codes for limited-magnitude errors,
    Designs, Codes, and Cryptography, 73(2), pp. 329-354, November 2014. (doi) (Erratum)
  43. Moshe Schwartz,
    On the non-existence of lattice tilings by quasi-crosses,
    European J. of Combinatorics, 36, pp. 130-142, February 2014. (doi)
  44. Moshe Schwartz,
    Gray codes and enumerative coding for vector spaces,
    IEEE Trans. on Inform. Theory, 60(1), pp. 271-281, January 2014. (doi)
  45. Eyal En Gad, Michael Langberg, Moshe Schwartz, and Jehoshua Bruck,
    Generalized Gray codes for local rank modulation,
    IEEE Trans. on Inform. Theory, 59(10), pp. 6664-6673, October 2013. (doi)
  46. Anxiao (Andrew) Jiang, Michael Langberg, Moshe Schwartz, and Jehoshua Bruck,
    Trajectory codes for flash memory,
    IEEE Trans. on Inform. Theory, 59(7), pp. 4530-4541, July 2013. (doi)
  47. Itzhak Tamo and Moshe Schwartz,
    On the labeling problem of permutation group codes under the infinity metric,
    IEEE Trans. on Inform. Theory, 58(10), pp. 6595-6604, October 2012. (doi)
  48. Yonatan Yehezkeally and Moshe Schwartz,
    Snake-in-the-box codes for rank modulation,
    IEEE Trans. on Inform. Theory, 58(8), pp. 5471-5483, August 2012. (doi)
  49. Moshe Schwartz,
    Quasi-cross lattice tilings with applications to flash memory,
    IEEE Trans. on Inform. Theory, 58(4), pp. 2397-2405, April 2012. (doi)
  50. Eyal En Gad, Michael Langberg, Moshe Schwartz, and Jehoshua Bruck,
    Constant-weight Gray codes for local rank modulation,
    IEEE Trans. on Inform. Theory, 57(11), pp. 7431-7442, November 2011. (doi)
  51. Moshe Schwartz and Alexander Vardy,
    New bounds on the capacity of multidimensional run-length constraints,
    IEEE Trans. on Inform. Theory, 57(7), pp. 4373-4382, July 2011. (doi)
  52. Moshe Schwartz and Itzhak Tamo,
    Optimal permutation anticodes with the infinity norm via permanents of (0,1)-matrices,
    Journal of Combinatorial Theory Ser. A, 118, pp. 1761-1774, 2011. (doi)
  53. Itzhak Tamo and Moshe Schwartz,
    Correcting limited-magnitude errors in the rank-modulation scheme,
    IEEE Trans. on Inform. Theory, 56(6), pp. 2551-2560, June 2010. (doi)
  54. Anxiao (Andrew) Jiang, Moshe Schwartz, and Jehoshua Bruck,
    Correcting charge-constrained errors in the rank-modulation scheme,
    IEEE Trans. on Inform. Theory, 56(5), pp. 2112-2120, May 2010. (doi)
  55. Yuval Cassuto, Moshe Schwartz, Vasken Bohossian, and Jehoshua Bruck,
    Codes for asymmetric limited-magnitude errors with applications to multilevel flash memories,
    IEEE Trans. on Inform. Theory, 56(4), pp. 1582-1595, April 2010. (doi)
    The 2010 IEEE Communications Society
    Best Student Paper Award
    in Signal Processing and Coding for Data Storage
  56. Moshe Schwartz and Jehoshua Bruck,
    On the capacity of the precision-resolution system,
    IEEE Trans. on Inform. Theory, 56(3), pp. 1028-1037, March 2010. (doi)
  57. Anxiao (Andrew) Jiang, Robert Mateescu, Moshe Schwartz, and Jehoshua Bruck,
    Rank modulation for flash memories,
    IEEE Trans. on Inform. Theory, 55(6), pp. 2659-2673, June 2009. (doi)
    The 2009 IEEE Communications Society
    Best Paper Award
    in Signal Processing and Coding for Data Storage
    The 2020 NVMW Persistent Impact Prize
  58. Moshe Schwartz,
    Efficiently computing the permanent and Hafnian of some banded Toeplitz matrices,
    Linear Algebra and its Applications, 430(4), pp. 1364-1374, 2009. (doi)
  59. Albrecht Böttcher, Sergei Grudsky, and Moshe Schwartz,
    Some problems concerning the test functions in the Szego and Avram-Parter theorems,
    Operator Theory: Advances and Applications, 187, pp. 81-93, 2008. (doi)
  60. Moshe Schwartz and Jehoshua Bruck,
    Constrained codes as networks of relations,
    IEEE Trans. on Inform. Theory, 54(5), pp. 2179-2195, May 2008. (doi)
  61. Moshe Schwartz and Alexander Vardy,
    On the stopping distance and the stopping redundancy of codes,
    IEEE Trans. on Inform. Theory, 52(3), pp. 922-932, March 2006. (doi)
  62. Tuvi Etzion, Moshe Schwartz, and Alexander Vardy,
    Optimal tristance anticodes in certain graphs,
    Journal of Combinatorial Theory Ser. A, 113(2), pp. 189-224, February 2006. (doi)
  63. Moshe Schwartz and Tuvi Etzion,
    Two-dimensional cluster-correcting codes,
    IEEE Trans. on Inform. Theory, 51(6), pp. 2121-2132, June 2005. (doi)
  64. Tuvi Etzion and Moshe Schwartz,
    Perfect constant-weight codes,
    IEEE Trans. on Inform. Theory, 50(9), pp. 2156-2165, September 2004. (doi)
  65. Moshe Schwartz and Tuvi Etzion,
    Codes and anticodes in the Grassman graph,
    Journal of Combinatorial Theory Ser. A, 97(1), pp. 27-42, January 2002. (doi)
  66. Moshe Schwartz and Tuvi Etzion,
    The structure of single-track Gray codes,
    IEEE Trans. on Inform. Theory, 45(7), pp. 2383-2396, November 1999. (doi)

Papers in Conference Proceedings

  1. Dor Elimelech, Tom Meyerovitch, and Moshe Schwartz,
    Bounds on the essential covering radius of constrained systems,
    Proc. of the 2023 IEEE International Symposium on Information Theory, ISIT2023, pp. 2679-2684, Taipei, Taiwan, June 2023.
  2. Dor Elimelech, Tom Meyerovitch, and Moshe Schwartz,
    Quantized-constraint concatenation and the covering radius of constrained systems,
    Proc. of the 2023 IEEE International Symposium on Information Theory, ISIT2023, pp. 2673-2678, Taipei, Taiwan, June 2023.
  3. Dor Elimelech and Moshe Schwartz,
    The optimal rate of second-order generalized-covering codes,
    Proc. of the 2023 IEEE International Symposium on Information Theory, ISIT2023, pp. 222-227, Taipei, Taiwan, June 2023.
  4. Hedongliang Liu, Hengjia Wei, Antonia Wachter-Zeh, and Moshe Schwartz,
    Linearized Reed-Solomon codes with support-constrained generator matrix,
    Proc. of the 2023 IEEE Information Theory Workshop, ITW2023, pp. 7-12, Saint-Malo, France, April 2023.
  5. Han Cai and Moshe Schwartz,
    A bound on the minimal field size of LRCs, and cyclic MR codes that attain it,
    Proc. of the 2022 IEEE International Symposium on Information Theory, ISIT2022, pp. 2644-2649, Espoo, Finland, June 2022.
  6. Dor Elimelech, Hengjia Wei, and Moshe Schwartz,
    On the generalized covering radii of Reed-Muller codes,
    Proc. of the 2022 IEEE International Symposium on Information Theory, ISIT2022, pp. 1791-1796, Espoo, Finland, June 2022.
  7. Hengjia Wei and Moshe Schwartz,
    Perfect codes correcting a single burst of limited-magnitude errors,
    Proc. of the 2022 IEEE International Symposium on Information Theory, ISIT2022, pp. 49-54, Espoo, Finland, June 2022.
  8. Han Cai, Cuiling Fan, Ying Miao, Moshe Schwartz, and Xiaohu Tang,
    An improved bound for optimal locally repairable codes,
    Proc. of the 2021 IEEE International Symposium on Information Theory, ISIT2021, pp. 3379-3384, Melbourne, Victoria, Australia, July 2021.
  9. Dor Elimelech, Marcelo Firer, and Moshe Schwartz,
    The generalized covering radii of linear codes,
    Proc. of the 2021 IEEE International Symposium on Information Theory, ISIT2021, pp. 302-307, Melbourne, Victoria, Australia, July 2021.
  10. Hengjia Wei and Moshe Schwartz,
    On tilings of asymmetric limited-magnitude balls,
    Proc. of the 2020 IEEE Information Theory Workshop, ITW2020, pp. 530-534, Riva del Garda, Italy, April 2021.
  11. Hedongliang Liu, Hengjia Wei, Sven Puchinger, Antonia Wachter-Zeh, and Moshe Schwartz,
    On the gap between scalar and vector solutions of generalized combination networks,
    Proc. of the 2020 IEEE International Symposium on Information Theory, ISIT2020, pp. 1652-1657, Los Angeles, CA, USA, June 2020.
  12. Siddharth Jain, Farzad Farnoud, Moshe Schwartz, and Jehoshua Bruck,
    Coding for optimized writing rate in DNA storage,
    Proc. of the 2020 IEEE International Symposium on Information Theory, ISIT2020, pp. 711-716, Los Angeles, CA, USA, June 2020.
  13. Han Cai and Moshe Schwartz,
    On optimal locally repairable codes and generalized sector-disk codes,
    Proc. of the 2020 IEEE International Symposium on Information Theory, ISIT2020, pp. 571-576, Los Angeles, CA, USA, June 2020.
  14. Yonatan Yehezkeally and Moshe Schwartz,
    Uncertainty of reconstructing multiple messages from uniform-tandem-duplication noise,
    Proc. of the 2020 IEEE International Symposium on Information Theory, ISIT2020, pp. 126-131, Los Angeles, CA, USA, June 2020.
  15. Han Cai, Ying Miao, Moshe Schwartz, and Xiaohu Tang,
    On optimal locally repairable codes with super-linear length,
    Proc. of the 2019 IEEE International Symposium on Information Theory, ISIT2019, pp. 2818-2822, Paris, France, July 2019.
  16. Yiwei Zhang, Eitan Yaakobi, Tuvi Etzion, and Moshe Schwartz,
    On the access complexity of PIR schemes,
    Proc. of the 2019 IEEE International Symposium on Information Theory, ISIT2019, pp. 2134-2138, Paris, France, July 2019.
  17. Han Cai, Tuvi Etzion, Moshe Schwartz, and Antonia Wachter-Zeh,
    Network coding solutions for the combination network and its subgraphs,
    Proc. of the 2019 IEEE International Symposium on Information Theory, ISIT2019, pp. 862-866, Paris, France, July 2019.
  18. Yuanyuan Tang, Yonatan Yehezkeally, Moshe Schwartz, and Farzad Farnoud (Hassanzadeh),
    Single-error detection and correction for duplication and substitution channels,
    Proc. of the 2019 IEEE International Symposium on Information Theory, ISIT2019, pp. 300-304, Paris, France, July 2019.
  19. Yonatan Yehezkeally and Moshe Schwartz,
    Reconstruction codes for DNA sequences with uniform tandem-duplication errors,
    Proc. of the 2018 IEEE International Symposium on Information Theory, ISIT2018, pp. 2535-2539, Vail, CO, U.S.A., June 2018.
  20. Hao Lou, Moshe Schwartz, and Farzad Farnoud (Hassanzadeh)
    Evolution of N-gram frequencies under duplication and substitution mutations,
    Proc. of the 2018 IEEE International Symposium on Information Theory, ISIT2018, pp. 2246-2250, Vail, CO, U.S.A., June 2018.
  21. Netantel Raviv, Yuval Cassuto, Rami Cohen, and Moshe Schwartz,
    Erasure correction of scalar codes in the presence of stragglers,
    Proc. of the 2018 IEEE International Symposium on Information Theory, ISIT2018, pp. 1983-1987, Vail, CO, U.S.A., June 2018.
  22. Netanel Raviv, Moshe Schwartz, and Eitan Yaakobi,
    Rank modulation codes for DNA storage,
    Proc. of the 2017 IEEE International Symposium on Information Theory, ISIT2017, pp. 3125-3129, Aachen, Germany, June 2017.
  23. Siddharth Jain, Farzad Farnoud (Hassanzadeh), Moshe Schwartz, and Jehoshua Bruck,
    Noise and uncertainty in string-duplication systems,
    Proc. of the 2017 IEEE International Symposium on Information Theory, ISIT2017, pp. 3120-3124, Aachen, Germany, June 2017.
  24. Ohad Elishco, Tom Meyerovitch, and Moshe Schwartz,
    Multidimensional semiconstrained systems,
    Proc. of the 2017 IEEE International Symposium on Information Theory, ISIT2017, pp. 1490-1494, Aachen, Germany, June 2017.
  25. Natalia Silberstein, Tuvi Etzion, and Moshe Schwartz,
    Locality and availability of array codes constructed from subspaces,
    Proc. of the 2017 IEEE International Symposium on Information Theory, ISIT2017, pp. 829-833, Aachen, Germany, June 2017.
  26. Ishay Haviv, Michael Langberg, Moshe Schwartz, and Eitan Yaakobi,
    Non-linear cyclic codes that attain the Gilbert-Varshamov bound,
    Proc. of the 2017 IEEE International Symposium on Information Theory, ISIT2017, pp. 586-588, Aachen, Germany, June 2017.
  27. Yonatan Yehezkeally and Moshe Schwartz,
    Limited-magnitude error-correcting Gray codes for rank modulation,
    Proc. of the 2016 IEEE International Symposium on Information Theory, ISIT2016, pp. 2829-2833, Barcelona, Spain, July 2016.
  28. Siddharth Jain, Farzad Farnoud (Hassanzadeh), Moshe Schwartz, and Jehoshua Bruck,
    Duplication-correcting codes for data storage in the DNA of living organisms,
    Proc. of the 2016 IEEE International Symposium on Information Theory, ISIT2016, pp. 1028-1032, Barcelona, Spain, July 2016.
  29. Ohad Elishco, Tom Meyerovitch, and Moshe Schwartz,
    Encoding semiconstrained systems,
    Proc. of the 2016 IEEE International Symposium on Information Theory, ISIT2016, pp. 395-399, Barcelona, Spain, July 2016.
  30. Ohad Elishco, Farzad Farnoud (Hassanzadeh), Moshe Schwartz, and Jehoshua Bruck,
    The capacity of some Pólya string models,
    Proc. of the 2016 IEEE International Symposium on Information Theory, ISIT2016, pp. 270-274, Barcelona, Spain, July 2016.
  31. Michael Langberg, Moshe Schwartz, and Eitan Yaakobi,
    Coding for the ell-infinity-limited permutation channel,
    Proc. of the 2015 IEEE International Symposium on Information Theory, ISIT2015, pp. 1936-1940, Hong Kong, China SAR, June 2015.
  32. Moshe Schwartz and Pascal O. Vontobel,
    Bounds on the size of balls over permutations with the infinity metric,
    Proc. of the 2015 IEEE International Symposium on Information Theory, ISIT2015, pp. 1731-1735, Hong Kong, China SAR, June 2015.
  33. Farzad Farnoud (Hassanzadeh), Moshe Schwartz, and Jehoshua Bruck,
    A stochastic model for genomic interspersed duplication,
    Proc. of the 2015 IEEE International Symposium on Information Theory, ISIT2015, pp. 904-908, Hong Kong, China SAR, June 2015.
  34. Ohad Elishco, Tom Meyerovitch, and Moshe Schwartz,
    Semiconstrained systems,
    Proc. of the 2015 IEEE International Symposium on Information Theory, ISIT2015, pp. 246-250, Hong Kong, China SAR, June 2015.
  35. Qiwen Wang, Viveck Cadambe, Sidharth Jaggi, Moshe Schwartz, and Muriel Médard,
    File updates under random/arbitrary insertions and deletions,
    Proc. of the 2015 IEEE Information Theory Workshop, ITW2015, pp. 1-5, Jerusalem, Israel, April 2015.
  36. Mario Blaum, James S. Plank, Moshe Schwartz, and Eitan Yaakobi,
    Partial MDS (PMDS) and sector-disk (SD) codes that tolerate the erasure of two random sectors,
    Proc. of the 2014 IEEE International Symposium on Information Theory, ISIT2014, pp. 1792-1796, Honolulu, HI, U.S.A., June 2014.
  37. Farzad Farnoud (Hassanzadeh), Moshe Schwartz, and Jehoshua Bruck,
    The capacity of string-duplication systems,
    Proc. of the 2014 IEEE International Symposium on Information Theory, ISIT2014, pp. 1301-1305, Honolulu, HI, U.S.A., June 2014.
  38. Farzad Farnoud (Hassanzadeh), Moshe Schwartz, and Jehoshua Bruck,
    Bounds for permutation rate-distortion,
    Proc. of the 2014 IEEE International Symposium on Information Theory, ISIT2014, pp. 6-10, Honolulu, HI, U.S.A., June 2014.
  39. Moshe Schwartz and Muriel Médard,
    Quasi-linear network coding,
    Proc. of the 2014 International Symposium on Network Coding, NetCod2014, pp. 1-6, Aalborg, Denmark, June 2014.
  40. Eitan Yaakobi, Moshe Schwartz, Michael Langberg, and Jehoshua Bruck,
    Sequence reconstruction for Grassmann graphs and permutations,
    Proc. of the 2013 IEEE International Symposium on Information Theory, ISIT2013, pp. 874-878, Istanbul, Turkey, July 2013.
  41. Torleiv Kløve and Moshe Schwartz,
    Covering sets for limited-magnitude errors,
    Proc. of the 2013 Workshop on Coding and Cryptography. WCC2013, pp. 69-78, Bergen, Norway, April 2013.
  42. Moshe Schwartz,
    On the non-existence of lattice tilings by quasi-crosses,
    Proc. of the 2013 Information Theory and Applications Workshop, ITA 2013, San Diego, CA, U.S.A., February 2013.
  43. Yonatan Yehezkeally and Moshe Schwartz,
    Snake-in-the-box codes for rank modulation,
    Proc. of the 2012 IEEE International Symposium on Information Theory, ISIT2012, pp. 2993-2997, Boston, MA, U.S.A., July 2012.
  44. Moshe Schwartz,
    Quasi-cross lattice tilings with applications to flash memory,
    Proc. of the 2011 IEEE International Symposium on Information Theory, ISIT2011, pp. 2099-2103, St. Petersburg, Russia, August 2011.
  45. Itzhak Tamo and Moshe Schwartz,
    On the labeling problem of permutation group codes under the infinity metric,
    Proc. of the 2011 IEEE International Symposium on Information Theory, ISIT2011, pp. 844-848, St. Petersburg, Russia, August 2011.
  46. Eyal En Gad, Michael Langberg, Moshe Schwartz, and Jehoshua Bruck,
    Generalized Gray codes for local rank modulation,
    Proc. of the 2011 IEEE International Symposium on Information Theory, ISIT2011, pp. 839-843, St. Petersburg, Russia, August 2011.
  47. Itzhak Tamo and Moshe Schwartz,
    On optimal anticodes over permutations with the infinity norm,
    Proc. of the 2011 Information Theory and Applications Workshop, ITA 2011, San Diego, CA, U.S.A., February 2011.
  48. Eyal En Gad, Michael Langberg, Moshe Schwartz, and Jehoshua Bruck,
    On a construction for constant-weight Gray codes for local rank modulation,
    Proc. of the 2010 IEEE 26-th Convention of Electrical and Electronic Engineers in Israel, IEEEI2010, p. 996, Eilat, Israel, November 2010.
  49. Moshe Schwartz,
    Constant-weight Gray codes for local rank modulation,
    Proc. of the 2010 IEEE International Symposium on Information Theory, ISIT2010, pp. 869-873, Austin, TX, U.S.A., June 2010.
  50. Itzhak Tamo and Moshe Schwartz,
    Correcting limited-magnitude errors in the rank-modulation scheme,
    Proc. of the 2010 Information Theory and Applications Workshop, ITA 2010, San Diego, CA, U.S.A., January 2010.
  51. Anxiao (Andrew) Jiang, Michael Langberg, Moshe Schwartz, and Jehoshua Bruck,
    Universal rewriting in constrained memories,
    Proc. of the 2009 IEEE International Symposium on Information Theory, ISIT2009, pp. 1219-1223, Seoul, South Korea, June 2009.
  52. Anxiao (Andrew) Jiang, Moshe Schwartz, and Jehoshua Bruck,
    Error-correcting codes for rank modulation,
    Proc. of the 2008 IEEE International Symposium on Information Theory, ISIT2008, pp. 1736-1740, Toronto, Canada, July 2008.
  53. Anxiao (Andrew) Jiang, Robert Mateescu, Moshe Schwartz, and Jehoshua Bruck,
    Rank modulation for flash memories,
    Proc. of the 2008 IEEE International Symposium on Information Theory, ISIT2008, pp. 1731-1735, Toronto, Canada, July 2008.
  54. Michael Langberg, Moshe Schwartz, and Jehoshua Bruck,
    Distributed broadcasting and mapping protocols in directed anonymous networks,
    Proc. of the 26th Annual ACM SIGACT-SIGOPS Symposium on Principles of Distributed Computing, PODC2007, pp. 382-383, Portland, OR, U.S.A., August 2007.
  55. Yuval Cassuto, Moshe Schwartz, Vasken Bohossian, and Jehoshua Bruck,
    Codes for multi-level Flash memories: correcting asymmetric limited-magnitude errors,
    Proc. of the 2007 IEEE International Symposium on Information Theory, ISIT2007, pp. 1176-1180, Nice, France, June 2007.
  56. Moshe Schwartz and Jehoshua Bruck,
    Constrained codes as networks of relations,
    Proc. of the 2007 IEEE International Symposium on Information Theory, ISIT2007, pp. 1386-1390, Nice, France, June 2007.
  57. Moshe Schwartz and Jehoshua Bruck,
    On the capacity of precision-resolution constrained systems,
    Proc. of the 2006 IEEE International Symposium on Information Theory, ISIT2006, pp. 1462-1466, Seattle, WA, U.S.A., July 2006.
  58. Moshe Schwartz and Alexander Vardy,
    New bounds on the capacity of multi-dimensional RLL-constrained systems,
    Proc. of the 16th International Symposium on Applied Algebra, Algebraic Algorithms, and Error-Correcting Codes, AAECC-16, Lecture Notes in Computer Science 3857, pp. 225-234, Las Vegas, NV, U.S.A., February 2006.
  59. Moshe Schwartz, Paul H. Siegel, and Alexander Vardy,
    On the asymptotic performance of iterative decoders for product codes,
    Proc. of the 2005 IEEE International Symposium on Information Theory, ISIT2005, pp. 1758-1762, Adelaide, Australia, September 2005.
  60. Moshe Schwartz and Alexander Vardy,
    On the stopping distance and the stopping redundancy of codes,
    Proc. of the 2005 IEEE International Symposium on Information Theory, ISIT2005, pp. 975-979, Adelaide, Australia, September 2005.
  61. Moshe Schwartz and Tuvi Etzion,
    Two-dimensional burst-correcting codes,
    Proc. of the 2004 IEEE International Symposium on Information Theory, ISIT2004, p. 397, Chicago, IL, U.S.A., July 2004.
  62. Moshe Schwartz and Tuvi Etzion,
    Optimal 2-dimensional 3-dispersion lattices,
    Proc. of the 15th International Symposium on Applied Algebra, Algebraic Algorithms, and Error-Correcting Codes, AAECC-15, Lecture Notes in Computer Science 2634, pp. 216-225, Toulouse, France, May 2003.
  63. Tuvi Etzion, Moshe Schwartz, and Alexander Vardy,
    Tristance anticodes in certain graphs,
    Proc. of the 40-th Annual Allerton Conference on Communications, Control, and Computing, Monticello, IL, U.S.A., October 2002.

Patents

  1. Moshe Schwartz and Jehoshua Bruck,
    Precision-resolution constrained coding scheme
    US Patent Number 7,443,319, issued August 28, 2008.
  2. Anxiao (Andrew) Jiang, Moshe Schwartz, and Jehoshua Bruck,
    Error-correcting codes for rank modulation
    US Patent Number 8,225,180, issued July 17, 2012.
  3. Anxiao (Andrew) Jiang, Robert Mateescu, Moshe Schwartz, and Jehoshua Bruck,
    Rank modulation for flash memories
    US Patent Number 8,245,094, issued August 14, 2012.
  4. Yuval Cassuto, Moshe Schwartz, Vasken Bohossian, and Jehoshua Bruck,
    Codes for limited magnitude asymmetric errors in flash memories
    US Patent Number 8,296,623, issued October 23, 2012.