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ORCIDGretchen L. Matthews
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- affiliation: Virginia Tech, Department of Mathematics, Blacksburg, VA, USA
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2020 – today
- 2024
[j32]Cícero Carvalho
, Hiram H. López, Gretchen L. Matthews:
Decreasing norm-trace codes. Des. Codes Cryptogr. 92(5): 1143-1161 (2024)- [j31]Gretchen L. Matthews, Travis Morrison, Aidan W. Murphy:
Curve-lifted codes for local recovery using lines. Des. Codes Cryptogr. 92(11): 3645-3664 (2024) - [j30]Eduardo Camps-Moreno, Hiram H. López, Gretchen L. Matthews, Diego Ruano, Rodrigo San-José, Ivan Soprunov:
An algebraic characterization of binary CSS-T codes and cyclic CSS-T codes for quantum fault tolerance. Quantum Inf. Process. 23(6): 230 (2024) - [j29]Eduardo Camps-Moreno, Hiram H. López, Gretchen L. Matthews:
Explicit Non-special Divisors of Small Degree, Algebraic Geometric Hulls, and LCD Codes from Kummer Extensions. SIAM J. Appl. Algebra Geom. 8(2): 394-413 (2024) - [j28]Sarah E. Anderson, Eduardo Camps-Moreno, Hiram H. López, Gretchen L. Matthews, Diego Ruano, Ivan Soprunov:
Relative Hulls and Quantum Codes. IEEE Trans. Inf. Theory 70(5): 3190-3201 (2024) - [c15]Eduardo Camps-Moreno, Hiram H. López, Gretchen L. Matthews, Emily McMillon:
Toward Quantum CSS-T Codes from Sparse Matrices. ISIT (Workshops) 2024: 1-6 - [c14]Eduardo Camps-Moreno, Gretchen L. Matthews, Welington Santos:
Error Correction from Partial Information Via Norm-Trace Codes. ISIT 2024: 2814-2819 - [i26]Eduardo Camps-Moreno, Gretchen L. Matthews, Welington Santos:
Fractional decoding of algebraic geometry codes over extension fields. CoRR abs/2404.07201 (2024) - [i25]Gretchen L. Matthews, Pedro Soto:
Algebraic Geometric Rook Codes for Coded Distributed Computing. CoRR abs/2405.09746 (2024) - [i24]Eduardo Camps-Moreno, Hiram H. López, Gretchen L. Matthews, Emily McMillon:
Toward Quantum CSS-T Codes from Sparse Matrices. CoRR abs/2406.00425 (2024) - [i23]Eduardo Camps-Moreno, Hiram H. López, Gretchen L. Matthews, Diego Ruano, Rodrigo San-José, Ivan Soprunov:
Binary Triorthogonal and CSS-T Codes for Quantum Error Correction. CoRR abs/2408.02916 (2024) - 2023
- [j27]Gretchen L. Matthews, Aidan W. Murphy, Welington Santos:
Fractional decoding of r-Hermitian codes. Finite Fields Their Appl. 92: 102278 (2023) - [j26]Hiram H. López, Gretchen L. Matthews:
Multivariate Goppa Codes. IEEE Trans. Inf. Theory 69(1): 126-137 (2023) - [c13]Giuseppe Cotardo, Gretchen L. Matthews, Julia Shapiro, Alberto Ravagnani:
Multishot Adversarial Network Decoding. Allerton 2023: 1-8 - [c12]Roberto Assis Machado, Gretchen L. Matthews, Welington Santos:
HerA Scheme: Secure Distributed Matrix Multiplication via Hermitian Codes. ISIT 2023: 1729-1734 - [i22]Roberto Assis Machado, Welington Santos, Gretchen L. Matthews:
HerA Scheme: Secure Distributed Matrix Multiplication via Hermitian Codes. CoRR abs/2303.16366 (2023) - [i21]Giuseppe Cotardo, Gretchen L. Matthews, Alberto Ravagnani, Julia Shapiro:
Multishot Adversarial Network Decoding. CoRR abs/2307.08839 (2023) - [i20]Gretchen L. Matthews, Travis Morrison, Aidan W. Murphy:
Curve-lifted codes for local recovery using lines. CoRR abs/2307.13183 (2023) - [i19]Hailey Egan, Jason T. LeGrow, Gretchen L. Matthews, Jeff Suliga:
Influences of some families of error-correcting codes. CoRR abs/2308.01781 (2023) - [i18]Kathryn Haymaker, Beth Malmskog, Gretchen L. Matthews:
Algebraic hierarchical locally recoverable codes with nested affine subspace recovery. CoRR abs/2310.20533 (2023) - [i17]Kathryn Haymaker, Hiram H. López, Beth Malmskog, Gretchen L. Matthews, Fernando Piñero:
Mathematical LoRE: Local Recovery of Erasures: Local recovery using polynomials, curves, surfaces, and liftings. CoRR abs/2312.16314 (2023) - [i16]Eduardo Camps-Moreno, Hiram H. López, Gretchen L. Matthews, Diego Ruano, Rodrigo San-José, Ivan Soprunov:
The poset of binary CSS-T quantum codes and cyclic codes. CoRR abs/2312.17518 (2023) - 2022
- [j25]Hiram H. López, Gretchen L. Matthews, Daniel Valvo:
Erasures Repair for Decreasing Monomial-Cartesian and Augmented Reed-Muller Codes of High Rate. IEEE Trans. Inf. Theory 68(3): 1651-1662 (2022) - [c11]Allison Beemer, Rutuja Kshirsagar, Gretchen L. Matthews:
Graph-based codes for hierarchical recovery. ISIT 2022: 1554-1559 - [c10]Gretchen L. Matthews, Aidan W. Murphy:
Norm-trace-lifted codes over binary fields. ISIT 2022: 3079-3084 - [c9]Hiram H. López, Gretchen L. Matthews, Daniel Valvo:
Secure MatDot codes: a secure, distributed matrix multiplication scheme. ITW 2022: 149-154 - [i15]Cícero Carvalho, Hiram H. López, Gretchen L. Matthews:
Decreasing norm-trace codes. CoRR abs/2209.12096 (2022) - [i14]Sarah E. Anderson, Eduardo Camps-Moreno, Hiram H. López, Gretchen L. Matthews, Diego Ruano, Ivan Soprunov:
Relative hulls and quantum codes. CoRR abs/2212.14521 (2022) - 2021
- [j24]Hiram H. López, Beth Malmskog, Gretchen L. Matthews, Fernando Piñero-González, Mary Wootters:
Hermitian-lifted codes. Des. Codes Cryptogr. 89(3): 497-515 (2021) - [j23]Eduardo Camps, Hiram H. López, Gretchen L. Matthews, Eliseo Sarmiento:
Polar Decreasing Monomial-Cartesian Codes. IEEE Trans. Inf. Theory 67(6): 3664-3674 (2021) - [c8]Hiram H. López, Gretchen L. Matthews, Daniel Valvo:
Augmented Reed-Muller Codes of High Rate and Erasure Repair. ISIT 2021: 438-443 - [c7]Gretchen L. Matthews, Aidan W. Murphy, Welington Santos:
Fractional decoding of codes from Hermitian curves. ISIT 2021: 515-520 - [c6]Gretchen L. Matthews, Stephen Timmel:
Polar Coding for Information Regular Processes. ISTC 2021: 1-5 - [i13]Hiram H. López, Gretchen L. Matthews, Daniel Valvo:
Erasures repair for decreasing monomial-Cartesian and augmented Reed-Muller codes of high rate. CoRR abs/2107.01534 (2021) - [i12]Hiram H. López, Gretchen L. Matthews:
Multivariate Goppa codes. CoRR abs/2112.06325 (2021) - [i11]Eduardo Camps, Hiram H. López, Gretchen L. Matthews:
Explicit non-special divisors of small degree and LCD codes from Kummer extensions. CoRR abs/2112.13424 (2021) - 2020
- [j22]Cong X. Kang, Gretchen L. Matthews, Justin D. Peachey:
On Laplacian monopoles. Australas. J Comb. 77: 383-397 (2020) - [j21]Hiram H. López, Gretchen L. Matthews, Ivan Soprunov:
Monomial-Cartesian codes and their duals, with applications to LCD codes, quantum codes, and locally recoverable codes. Des. Codes Cryptogr. 88(8): 1673-1685 (2020) - [j20]Gretchen L. Matthews, Fernando Piñero:
Codes with locality from cyclic extensions of Deligne-Lusztig curves. Des. Codes Cryptogr. 88(9): 1909-1924 (2020) - [i10]Eduardo Camps, Hiram H. López, Gretchen L. Matthews, Eliseo Sarmiento:
Polar decreasing monomial-Cartesian codes. CoRR abs/2002.00325 (2020) - [i9]Hiram H. López, Beth Malmskog, Gretchen L. Matthews, Fernando Piñero-González, Mary Wootters:
Hermitian-Lifted Codes. CoRR abs/2006.05558 (2020) - [i8]Gretchen L. Matthews, Fernando L. Piñero:
Codes with locality from cyclic extensions of Deligne-Lusztig curves. CoRR abs/2006.06397 (2020)
2010 – 2019
- 2019
- [j19]Hiram H. López, Felice Manganiello, Gretchen L. Matthews:
Affine Cartesian codes with complementary duals. Finite Fields Their Appl. 57: 13-28 (2019) - [c5]Gretchen L. Matthews, Yongge Wang:
Quantum Resistant Public Key Encryption Scheme HermitianRLCE. CBC 2019: 1-10 - [i7]Sarah E. Anderson, Ann Johnston, Gauri Joshi, Gretchen L. Matthews, Carolyn Mayer, Emina Soljanin:
Service Rate Region of Content Access from Erasure Coded Storage. CoRR abs/1901.02399 (2019) - [i6]Hiram H. López, Gretchen L. Matthews, Ivan Soprunov:
Monomial-Cartesian codes and their duals, with applications to LCD codes, quantum codes, and locally recoverable codes. CoRR abs/1907.11812 (2019) - 2018
- [j18]Kathryn Haymaker, Beth Malmskog, Gretchen L. Matthews:
Locally recoverable codes with availability t≥2 from fiber products of curves. Adv. Math. Commun. 12(2): 317-336 (2018) - [c4]Sarah E. Anderson, Ann Johnston, Gauri Joshi, Gretchen L. Matthews, Carolyn Mayer, Emina Soljanin:
Service Rate Region of Content Access from Erasure Coded Storage. ITW 2018: 1-5 - [i5]Hiram H. López, Felice Manganiello, Gretchen L. Matthews:
Affine Cartesian codes with complementary duals. CoRR abs/1805.07018 (2018) - 2017
- [j17]Amber Simpson, Nicole Bannister, Gretchen L. Matthews:
Cracking her codes: understanding shared technology resources as positioning artifacts for power and status in CSCL environments. Int. J. Comput. Support. Collab. Learn. 12(3): 221-249 (2017) - [j16]Gretchen L. Matthews:
Distance colorings of hypercubes from Z2Z4-linear codes. Discret. Appl. Math. 217: 356-361 (2017) - [j15]Shuhong Gao, Fiona Knoll, Felice Manganiello, Gretchen L. Matthews:
Codes for distributed storage from 3-regular graphs. Discret. Appl. Math. 229: 82-89 (2017) - [c3]Mehmet S. Aktas, Sarah E. Anderson, Ann Johnston, Gauri Joshi, Swanand Kadhe, Gretchen L. Matthews, Carolyn Mayer, Emina Soljanin:
On the service capacity region of accessing erasure coded content. Allerton 2017: 17-24 - [i4]Alexander Barg, Kathryn Haymaker, Everett W. Howe, Gretchen L. Matthews, Anthony Várilly-Alvarado:
Locally recoverable codes from algebraic curves and surfaces. CoRR abs/1701.05212 (2017) - [i3]Mehmet S. Aktas, Sarah E. Anderson, Ann Johnston, Gauri Joshi, Swanand Kadhe, Gretchen L. Matthews, Carolyn Mayer, Emina Soljanin:
On the Service Capacity Region of Accessing Erasure Coded Content. CoRR abs/1710.03376 (2017) - 2016
- [j14]Sarah E. Anderson, Gretchen L. Matthews:
Stopping Sets of Hermitian Codes. IEEE Trans. Inf. Theory 62(11): 6304-6314 (2016) - [i2]Shuhong Gao, Fiona Knoll, Felice Manganiello, Gretchen L. Matthews:
Codes for distributed storage from 3-regular graphs. CoRR abs/1610.00043 (2016) - [i1]Kathryn Haymaker, Beth Malmskog, Gretchen L. Matthews:
Locally Recoverable Codes with Availability t≥2 from Fiber Products of Curves. CoRR abs/1612.03841 (2016) - 2014
- [j13]Sarah E. Anderson, Gretchen L. Matthews:
Exponents of polar codes using algebraic geometric code kernels. Des. Codes Cryptogr. 73(2): 699-717 (2014) - [j12]Wittawat Kositwattanarerk, Gretchen L. Matthews:
Pseudocodewords of Parity-Check Codes Over Fields of Prime Cardinality. IEEE Trans. Inf. Theory 60(9): 5215-5227 (2014) - 2011
- [j11]Wittawat Kositwattanarerk, Gretchen L. Matthews:
Lifting the Fundamental Cone and Enumerating the Pseudocodewords of a Parity-Check Code. IEEE Trans. Inf. Theory 57(2): 898-909 (2011) - 2010
- [j10]Nathan Drake, Gretchen L. Matthews:
Parameter choices and a better bound on the list size in the Guruswami-Sudan algorithm for algebraic geometry codes. Des. Codes Cryptogr. 54(2): 181-187 (2010) - [j9]Nathan Drake, Gretchen L. Matthews:
Minimum distance decoding of general algebraic geometry codes via lists. IEEE Trans. Inf. Theory 56(9): 4335-4340 (2010)
2000 – 2009
- 2009
- [j8]Renu C. Laskar, Gretchen L. Matthews, Beth Novick, John Villalpando:
On irreducible no-hole L(2, 1)-coloring of trees. Networks 53(2): 206-211 (2009) - [c2]Gretchen L. Matthews:
On Weierstrass Semigroups of Some Triples on Norm-Trace Curves. IWCC 2009: 146-156 - [p1]Gretchen L. Matthews:
Viewing Multipoint Codes as Subcodes of One-Point Codes. Gröbner Bases, Coding, and Cryptography 2009: 399-402 - 2008
- [j7]Robert E. Jamison, Gretchen L. Matthews:
On the Acyclic Chromatic Number of Hamming Graphs. Graphs Comb. 24(4): 349-360 (2008) - 2006
- [j6]Hiren Maharaj, Gretchen L. Matthews:
On the floor and the ceiling of a divisor. Finite Fields Their Appl. 12(1): 38-55 (2006) - [j5]Robert E. Jamison, Gretchen L. Matthews, John Villalpando:
Acyclic colorings of products of trees. Inf. Process. Lett. 99(1): 7-12 (2006) - 2005
- [j4]Gretchen L. Matthews:
Weierstrass Semigroups and Codes from a Quotient of the Hermitian Curve. Des. Codes Cryptogr. 37(3): 473-492 (2005) - [j3]Gretchen L. Matthews, T. W. Michel:
One-point codes using places of higher degree. IEEE Trans. Inf. Theory 51(4): 1590-1593 (2005) - 2004
- [j2]Gretchen L. Matthews:
Codes from the Suzuki function field. IEEE Trans. Inf. Theory 50(12): 3298-3302 (2004) - 2003
- [c1]Gretchen L. Matthews:
The Weierstrass Semigroup of an m-tuple of Collinear Points on a Hermitian Curve. International Conference on Finite Fields and Applications 2003: 12-24 - 2001
- [j1]Gretchen L. Matthews:
Weierstrass Pairs and Minimum Distance of Goppa Codes. Des. Codes Cryptogr. 22(2): 107-121 (2001)
Coauthor Index
aka: Eduardo Camps-Moreno
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