Hunter Snevily

Hunter Snevily
Hunter Snevily
Born	June 15, 1956
Died	November 11, 2013 (aged 57).; Moscow, Idaho
Nationality	American
Alma mater	Emory University; University of Illinois Urbana-Champaign
Occupation	Mathematician
Employer	University of Idaho
Known for	Contributions in Set theory, Graph theory, and Ramsey theory on the integers

Hunter Snevily (1956–2013) was an American mathematician with expertise and contributions in Set theory, Graph theory, Discrete geometry, and Ramsey theory on the integers.^[2]

Education and career[edit]

Hunter received his undergraduate degree from Emory University in 1981,^[1] and his Ph.D. degree from the University of Illinois Urbana-Champaign under the supervision of Douglas West in 1991.^[1]^[3] After a postdoctoral fellowship at Caltech, where he mentored many students, Hunter took a faculty position at the University of Idaho in 1993 where he was a professor until 2010.^[1] He retired early ^[4] while fighting with Parkinsons,^[1]^[2] but continued research in mathematics till his last days.^[1]^[2]

Mathematics research[edit]

The following are some of Hunter's most important contributions (as discussed in ^[2]):

Hunter formulated a conjecture (1991) ^[5] bounding the size of a family of sets under intersection constraints. He conjectured that if ${\mathcal {L}}$ is a set of $k$ positive integers and $\{A_{1},A_{2},\ldots ,A_{m}\}$ is a family of subsets of an $n$ -set satisfying $|A_{i}\cap A_{j}|\in {\mathcal {L}}$ whenever $i\neq j$ , then $m\leq \sum _{i=0}^{k}{n-1 \choose i}$ . His conjecture was ambitious in a way it would beautifully unify classical results of Nicolaas Govert de Bruijn and Paul Erdős (1948),^[6] Bose (1949),^[7] Majumdar (1953),^[8] H. J. Ryser (1968),^[9] Frankl and Füredi (1981),^[10] and Frankl and Wilson (1981).^[11] Hunter finally proved his conjecture in 2003^[12]
Hunter made important contribution to the well known Chvátal's Conjecture (1974)^[13] which states that every hereditary family ${\mathcal {F}}$ of sets has a largest intersecting subfamily consisting of sets with a common element. Schönheim^[14] proved this when the maximal members of ${\mathcal {F}}$ have a common element. Vašek Chvátal proved it when there is a linear order on the elements such that $\{b_{1},b_{2},\ldots ,b_{k}\}\in {\mathcal {F}}$ implies $\{a_{1},a_{2},\ldots ,a_{k}\}\in {\mathcal {F}}$ when $a_{i}\leq b_{i}$ for $1\leq i\leq k$ . A family ${\mathcal {F}}$ has $x$ as a dominant element if substituting $x$ for any element of a member of ${\mathcal {F}}$ not containing $x$ yields another member of ${\mathcal {F}}$ . Hunter's 1992 result^[15] greatly strengthened both Schönheim's result and Chvátal's result by proving the conjecture for all families having a dominant element; it was major progress on the problem.
One of his most cited papers^[16] is with Lior Pachter and Bill Voxman^[17] on Graph pebbling. This paper and Hunter's later paper^[18] with Foster added several conjectures on the subject and together have been cited in more than 50 papers.
Hunter made important contributions^[19]^[20]^[21] on the Snake-in-the-box problem and on the Graceful labeling of graphs.
One of Hunter's conjectures (1999)^[22] became known as Snevily's Conjecture:^[23] Given an abelian group $G$ of odd order, and subsets $\{a_{1},a_{2},\ldots ,a_{k}\}$ and $\{b_{1},b_{2},\ldots ,b_{k}\}$ of $G$ , there exists a permutation $\pi$ of $[k]$ such that $a_{1}+b_{\pi }(1),a_{2}+b_{\pi }(2),\ldots ,a_{k}+b_{\pi }(k)$ are distinct. Noga Alon^[24] proved this for cyclic groups of prime order. Dasgupta et al. (2001).^[25] proved it for all cyclic groups. Finally, after a decade, the conjecture was proved for all groups by a young mathematician Arsovski.^[26] Terence Tao devoted a section to Snevily's Conjecture in his well-known book Additive Combinatorics.
Hunter collaborated the most^[27]^[28]^[29]^[21]^[30]^[31]^[32]^[33] with his long-term friend^[2] André Kézdy. After retirement, he became friends with Tanbir Ahmed^[2] and explored experimental mathematics that resulted in several publications ^[34]^[35]^[36]^[37]^[38]^[39]

References[edit]

^ ^a ^b ^c ^d ^e ^f "Hunter Snevily's obituary in The Moscow-Pullman Daily News". 2013-11-25.
^ ^a ^b ^c ^d ^e ^f ^g Ahmed, Tanbir; Kézdy, André; West, Douglas (2015). "Remembering Hunter Snevily". Bulletin of the Institute of Combinatorics and its Applications. 73: 7–17. MR 3331369.
^ Hunter Snevily at the Mathematics Genealogy Project
^ "Hunter Snevily retires" (PDF). 2022-10-22.
^ Snevily, Hunter (1991). "Combinatorics of Finite Sets". University of Illinois Urbana-Champaign.
^ de Bruijn, Nicolaas G.; Erdős, Paul (1948). "On a Combinatorial Problem". Indagationes Mathematicae. 10: 421–423.
^ Bose, R. C. (1949). "A note on Fisher's inequality for balanced incomplete block designs". Annals of Mathematical Statistics. 20 (4): 619–620. doi:10.1214/aoms/1177729958.
^ Majumdar, K. N. (1953). "On some theorems in combinatorics relating to incomplete block designs". Annals of Mathematical Statistics. 24 (3): 377–389. doi:10.1214/aoms/1177728978.
^ Ryser, H. J. (1968). "An extension of a theorem of de bruijn and Erdős on combinatorial designs". Journal of Algebra. 10 (2): 246–261. doi:10.1016/0021-8693(68)90099-9.
^ Frankl, P.; Füredi, Zoltán (1981). "Families of finite sets with a missing intersection". Proc. Colloq. Math. Soc. Janos Bolyai (Eger, Hungary). 37: 305–318.
^ Frankl, P.; Wilson, R. M. (1981). "Intersection theorems with geometric consequences". Combinatorica. 1 (4): 357–368. doi:10.1007/BF02579457. S2CID 6768348.
^ Snevily, Hunter (2003). "A sharp bound for the number of sets that pairwise intersect at $k$ positive values". Combinatorica. 23 (3): 527–533. doi:10.1007/s00493-003-0031-2. S2CID 20035419.
^ Chvátal, V. (1974). Unsolved Problem No. 7. Hypergraph Seminar (Proc. First Working Sem., Ohio State Univ., Columbus, Ohio, 1972). Lecture Notes in Mathematics. Vol. 411. pp. Springer, Berlin.
^ Schönheim, J. (1976). "Hereditary systems and Chvátal's conjecture, in: Proceedings of the Fifth British Combinatorial Conference (Univ. Aberdeen, Aberdeen, 1975)". Congressus Numerantium. XV: 537–539.
^ Snevily, Hunter (1992). "A New Result on Chvátal's Conjecture". Journal of Combinatorial Theory. Series A. 61: 137–141. doi:10.1016/0097-3165(92)90059-4.
^ "Hunter Snevily". 2022-10-18. in ZbMATH Open
^ Pachter, Lior; Snevily, Hunter S.; Voxman, Bill (1995). "On pebbling graphs" (PDF). Proceedings of the Twenty-Sixth Southeastern International Conference on Combinatorics, Graph Theory and Computing (Boca Raton, FL, 1995). Congressus Numerantium. Vol. 107. pp. 65–80. MR 1369255. Archived from the original (PDF) on 2015-11-25.
^ Snevily, Hunter; Foster, J. A. (2000). "The 2-pebbling property and a conjecture of Graham's". Graphs and Combinatorics. 16 (2): 231–244. doi:10.1007/PL00021179. S2CID 12095903.
^ Snevily, Hunter (1994). "The snake-in-the-box problem: A new upper bound". Discrete Mathematics. 133 (1–3): 307–314. doi:10.1016/0012-365X(94)90039-6.
^ Snevily, Hunter (1997). "New families of graphs that have $\alpha$ -labelings". Discrete Mathematics. 170: 185–194. doi:10.1016/0012-365X(95)00159-T.
^ ^a ^b Kézdy, André; Snevily, Hunter (2002). "Distinct sums modulo n and tree embeddings". Combinatorics, Probability and Computing. 11 (1): 35–42. doi:10.1017/S0963548301004874. S2CID 26848303.
^ Snevily, Hunter (1999). "Unsolved Problems: The Cayley Addition Table of ${\mathbb {Z} }_{n}$ ". American Mathematical Monthly. 106 (6): 584–585.
^ "Snevily's conjecture". 2022-10-21.
^ Alon, Noga (2000). "Additive Latin transversals". Israel Journal of Mathematics. 117: 125–130. doi:10.1007/BF02773567. S2CID 16047303.
^ Dasgupta, S.; Karolyi, Gy.; Serra, O.; Szegedy, B. (2001). "Transversals of additive Latin squares". Israel Journal of Mathematics. 126: 17–28. doi:10.1007/BF02784149. S2CID 17826107.
^ Arsovski, Bodan (2011). "A proof of Snevily's Conjecture". Israel Journal of Mathematics. 182: 505–508. doi:10.1007/s11856-011-0040-6. S2CID 119529990.
^ Kézdy, André E.; Snevily, Hunter S.; Wang, Chi (1996). "Partitioning permutations into increasing and decreasing subsequences". Journal of Combinatorial Theory. Series A. 73 (2): 353–359. doi:10.1016/S0097-3165(96)80012-4.
^ Kézdy, André E.; Snevily, Hunter S. (1997). "On extensions of a conjecture of Gallai". Journal of Combinatorial Theory. Series B. 70 (2): 317–324. doi:10.1006/jctb.1997.1764.
^ Kézdy, André E.; Nielsen, Mark J.; Snevily, Hunter S. (2001). "Generalized triangle inequalities in ${\mathbb {R} }^{n}$ ". Bulletin of the Institute of Combinatorics and Its Applications. 33: 23–28.
^ Kézdy, André E.; Snevily, Hunter S. (2004). "Polynomials that vanish on distinct $n$ th roots of unity". Combinatorics, Probability and Computing. 13 (1): 37–59. doi:10.1017/S0963548303005923. S2CID 7061368.
^ Kézdy, André E.; Snevily, Hunter S.; White, Susan C. (2009). "Generalized Schur numbers for $x_{1}+x_{2}+c=3x_{3}$ ". Electronic Journal of Combinatorics. 16 (1): R105. doi:10.37236/194.
^ Jobson, Adam S.; Kézdy, André E.; Snevily, Hunter S.; White, Susan C. (2011). "Ramsey functions for quasi-progressions with large diameter". Journal of Combinatorics. 2 (4): 557–573. doi:10.4310/JOC.2011.v2.n4.a5.
^ Brauch, Timothy M.; Kézdy, André E.; Snevily, Hunter (2014). "The combinatorial Nullstellensatz and DFT on perfect matchings in bipartite graphs". Ars Combinatoria. 114: 461–475.
^ Ahmed, Tanbir; Eldredge, Michael; Marler, Jonathan; Snevily, Hunter (2013). "Strict Schur Numbers". Integers. 13: A22. MR 3083484.
^ Tanbir Ahmed and Hunter Snevily, Bull. Inst. Combin. Appl., 68 (2013), 55-69. (PDF) MR3136863. Ahmed, Tanbir; Snevily, Hunter (2013). "Some properties of Roller Coaster Permutations". Bulletin of the Institute of Combinatorics and its Applications. 68: 55–69. MR 3136863.
^ Ahmed, Tanbir; Dybizbański, Janusz; Snevily, Hunter (2013). "Unique Sequences Containing No k-Term Arithmetic Progressions". Electronic Journal of Combinatorics. 20 (4): P29. doi:10.37236/3007. MR 3158268.
^ Ahmed, Tanbir; Snevily, Hunter (2013). "Sparse Distance Sets in the Triangular Lattice". Electronic Journal of Combinatorics. 20 (4): P33. doi:10.37236/3263. MR 3158272.
^ Ahmed, Tanbir; Snevily, Hunter (2014). "The $\alpha$ -labeling number of comets is $2$ ". Bulletin of the Institute of Combinatorics and its Applications. 72: 25–40. MR 3362514.
^ Ahmed, Tanbir; Kullmann, Oliver; Snevily, Hunter (2014). "On the van der Waerden numbers $w(2;3,t)$ ". Discrete Applied Mathematics. 174: 27–51. arXiv:1102.5433. doi:10.1016/j.dam.2014.05.007. MR 3215454. S2CID 290091.

[obit-1] ^ ^a ^b ^c ^d ^e ^f "Hunter Snevily's obituary in The Moscow-Pullman Daily News". 2013-11-25.

[remem-2] ^ ^a ^b ^c ^d ^e ^f ^g Ahmed, Tanbir; Kézdy, André; West, Douglas (2015). "Remembering Hunter Snevily". Bulletin of the Institute of Combinatorics and its Applications. 73: 7–17. MR 3331369.

[mgp-3] Hunter Snevily at the Mathematics Genealogy Project

[retire-4] "Hunter Snevily retires" (PDF). 2022-10-22.

[thesis-5] Snevily, Hunter (1991). "Combinatorics of Finite Sets". University of Illinois Urbana-Champaign.

[dberdos-6] Bruijn, Nicolaas G.; Erdős, Paul (1948). "On a Combinatorial Problem". Indagationes Mathematicae. 10: 421–423.

[bose-7] Bose, R. C. (1949). "A note on Fisher's inequality for balanced incomplete block designs". Annals of Mathematical Statistics. 20 (4): 619–620. doi:10.1214/aoms/1177729958.

[majumder-8] Majumdar, K. N. (1953). "On some theorems in combinatorics relating to incomplete block designs". Annals of Mathematical Statistics. 24 (3): 377–389. doi:10.1214/aoms/1177728978.

[ryser-9] Ryser, H. J. (1968). "An extension of a theorem of de bruijn and Erdős on combinatorial designs". Journal of Algebra. 10 (2): 246–261. doi:10.1016/0021-8693(68)90099-9.

[ff-10] Frankl, P.; Füredi, Zoltán (1981). "Families of finite sets with a missing intersection". Proc. Colloq. Math. Soc. Janos Bolyai (Eger, Hungary). 37: 305–318.

[fw-11] Frankl, P.; Wilson, R. M. (1981). "Intersection theorems with geometric consequences". Combinatorica. 1 (4): 357–368. doi:10.1007/BF02579457. S2CID 6768348.

[everest-12] Snevily, Hunter (2003). "A sharp bound for the number of sets that pairwise intersect at $k$ positive values". Combinatorica. 23 (3): 527–533. doi:10.1007/s00493-003-0031-2. S2CID 20035419.

[chvatal_conj-13] Chvátal, V. (1974). Unsolved Problem No. 7. Hypergraph Seminar (Proc. First Working Sem., Ohio State Univ., Columbus, Ohio, 1972). Lecture Notes in Mathematics. Vol. 411. pp. Springer, Berlin.

[schon-14] Schönheim, J. (1976). "Hereditary systems and Chvátal's conjecture, in: Proceedings of the Fifth British Combinatorial Conference (Univ. Aberdeen, Aberdeen, 1975)". Congressus Numerantium. XV: 537–539.

[hunter1992-15] Snevily, Hunter (1992). "A New Result on Chvátal's Conjecture". Journal of Combinatorial Theory. Series A. 61: 137–141. doi:10.1016/0097-3165(92)90059-4.

[zbm-16] "Hunter Snevily". 2022-10-18. in ZbMATH Open

[pebble-17] Pachter, Lior; Snevily, Hunter S.; Voxman, Bill (1995). "On pebbling graphs" (PDF). Proceedings of the Twenty-Sixth Southeastern International Conference on Combinatorics, Graph Theory and Computing (Boca Raton, FL, 1995). Congressus Numerantium. Vol. 107. pp. 65–80. MR 1369255. Archived from the original (PDF) on 2015-11-25.

[foster-18] Snevily, Hunter; Foster, J. A. (2000). "The 2-pebbling property and a conjecture of Graham's". Graphs and Combinatorics. 16 (2): 231–244. doi:10.1007/PL00021179. S2CID 12095903.

[sib-19] Snevily, Hunter (1994). "The snake-in-the-box problem: A new upper bound". Discrete Mathematics. 133 (1–3): 307–314. doi:10.1016/0012-365X(94)90039-6.

[grace-20] Snevily, Hunter (1997). "New families of graphs that have $\alpha$ -labelings". Discrete Mathematics. 170: 185–194. doi:10.1016/0012-365X(95)00159-T.

[kezdy2002-21] Kézdy, André; Snevily, Hunter (2002). "Distinct sums modulo n and tree embeddings". Combinatorics, Probability and Computing. 11 (1): 35–42. doi:10.1017/S0963548301004874. S2CID 26848303.

[conj1999-22] Snevily, Hunter (1999). "Unsolved Problems: The Cayley Addition Table of ${\mathbb {Z} }_{n}$ ". American Mathematical Monthly. 106 (6): 584–585.

[sc-23] "Snevily's conjecture". 2022-10-21.

[alon2000-24] Alon, Noga (2000). "Additive Latin transversals". Israel Journal of Mathematics. 117: 125–130. doi:10.1007/BF02773567. S2CID 16047303.

[dasgupta-25] Dasgupta, S.; Karolyi, Gy.; Serra, O.; Szegedy, B. (2001). "Transversals of additive Latin squares". Israel Journal of Mathematics. 126: 17–28. doi:10.1007/BF02784149. S2CID 17826107.

[arsovski2011-26] Arsovski, Bodan (2011). "A proof of Snevily's Conjecture". Israel Journal of Mathematics. 182: 505–508. doi:10.1007/s11856-011-0040-6. S2CID 119529990.

[kezdy1996-27] Kézdy, André E.; Snevily, Hunter S.; Wang, Chi (1996). "Partitioning permutations into increasing and decreasing subsequences". Journal of Combinatorial Theory. Series A. 73 (2): 353–359. doi:10.1016/S0097-3165(96)80012-4.

[kezdy1997-28] Kézdy, André E.; Snevily, Hunter S. (1997). "On extensions of a conjecture of Gallai". Journal of Combinatorial Theory. Series B. 70 (2): 317–324. doi:10.1006/jctb.1997.1764.

[kezdy2001-29] Kézdy, André E.; Nielsen, Mark J.; Snevily, Hunter S. (2001). "Generalized triangle inequalities in ${\mathbb {R} }^{n}$ ". Bulletin of the Institute of Combinatorics and Its Applications. 33: 23–28.

[kezdy2004-30] Kézdy, André E.; Snevily, Hunter S. (2004). "Polynomials that vanish on distinct $n$ th roots of unity". Combinatorics, Probability and Computing. 13 (1): 37–59. doi:10.1017/S0963548303005923. S2CID 7061368.

[kezdy2009-31] Kézdy, André E.; Snevily, Hunter S.; White, Susan C. (2009). "Generalized Schur numbers for $x_{1}+x_{2}+c=3x_{3}$ ". Electronic Journal of Combinatorics. 16 (1): R105. doi:10.37236/194.

[kezdy2011-32] Jobson, Adam S.; Kézdy, André E.; Snevily, Hunter S.; White, Susan C. (2011). "Ramsey functions for quasi-progressions with large diameter". Journal of Combinatorics. 2 (4): 557–573. doi:10.4310/JOC.2011.v2.n4.a5.

[kezdy2014-33] Brauch, Timothy M.; Kézdy, André E.; Snevily, Hunter (2014). "The combinatorial Nullstellensatz and DFT on perfect matchings in bipartite graphs". Ars Combinatoria. 114: 461–475.

[strict2013-34] Ahmed, Tanbir; Eldredge, Michael; Marler, Jonathan; Snevily, Hunter (2013). "Strict Schur Numbers". Integers. 13: A22. MR 3083484.

[roller-35] Tanbir Ahmed and Hunter Snevily, Bull. Inst. Combin. Appl., 68 (2013), 55-69. (PDF) MR3136863. Ahmed, Tanbir; Snevily, Hunter (2013). "Some properties of Roller Coaster Permutations". Bulletin of the Institute of Combinatorics and its Applications. 68: 55–69. MR 3136863.

[seq-36] Ahmed, Tanbir; Dybizbański, Janusz; Snevily, Hunter (2013). "Unique Sequences Containing No k-Term Arithmetic Progressions". Electronic Journal of Combinatorics. 20 (4): P29. doi:10.37236/3007. MR 3158268.

[sparse-37] Ahmed, Tanbir; Snevily, Hunter (2013). "Sparse Distance Sets in the Triangular Lattice". Electronic Journal of Combinatorics. 20 (4): P33. doi:10.37236/3263. MR 3158272.

[alpha-38] Ahmed, Tanbir; Snevily, Hunter (2014). "The $\alpha$ -labeling number of comets is $2$ ". Bulletin of the Institute of Combinatorics and its Applications. 72: 25–40. MR 3362514.

[van3-39] Ahmed, Tanbir; Kullmann, Oliver; Snevily, Hunter (2014). "On the van der Waerden numbers $w(2;3,t)$ ". Discrete Applied Mathematics. 174: 27–51. arXiv:1102.5433. doi:10.1016/j.dam.2014.05.007. MR 3215454. S2CID 290091.

[1]

[2]

[3]

[4]

[5]

[6]

[7]

[8]

[9]

[10]

[11]

[12]

[13]

[14]

[15]

[16]

[17]

[18]

[19]

[20]

[21]

[22]

[23]

[24]

[25]

[26]

[27]

[28]

[29]

[30]

[31]

[32]

[33]

[34]

[35]

[36]

[37]

[38]

[39]