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Kenneth Zeger
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2020 – today
- 2023
- [j75]Spencer Congero
, Kenneth Zeger
The 3/4 Conjecture for Fix-Free Codes With at Most Three Distinct Codeword Lengths. IEEE Trans. Inf. Theory 69(3): 1452-1485 (2023) - [i12]Spencer Congero, Kenneth Zeger:
Characterizations of Minimal Expected Length Codes. CoRR abs/2311.07007 (2023) - [i11]Spencer Congero, Kenneth Zeger:
Competitive Advantage of Huffman and Shannon-Fano Codes. CoRR abs/2311.07009 (2023) - 2022
- [j74]Spencer Congero
Hexagonal Run-Length Zero Capacity Region - Part I: Analytical Proofs. IEEE Trans. Inf. Theory 68(1): 130-152 (2022) - [j73]Spencer Congero
Hexagonal Run-Length Zero Capacity Region - Part II: Automated Proofs. IEEE Trans. Inf. Theory 68(1): 153-177 (2022)
2010 – 2019
- 2019
- [j72]Joseph Connelly
Capacity and Achievable Rate Regions for Linear Network Coding Over Ring Alphabets. IEEE Trans. Inf. Theory 65(1): 220-234 (2019) - 2018
- [j71]Joseph Connelly
Linear Network Coding Over Rings - Part I: Scalar Codes and Commutative Alphabets. IEEE Trans. Inf. Theory 64(1): 274-291 (2018) - [j70]Joseph Connelly
Linear Network Coding Over Rings - Part II: Vector Codes and Non-Commutative Alphabets. IEEE Trans. Inf. Theory 64(1): 292-308 (2018) - 2017
- [j69]Joseph Connelly, Kenneth Zeger
A Class of Non-Linearly Solvable Networks. IEEE Trans. Inf. Theory 63(1): 201-229 (2017) - [i10]Joseph Connelly, Kenneth Zeger:
Linear Capacity of Networks over Ring Alphabets. CoRR abs/1706.01152 (2017) - 2016
- [c36]Joseph Connelly
A class of non-linearly solvable networks. ISIT 2016: 1964-1968 - [i9]Joseph Connelly, Kenneth Zeger:
A Class of Non-Linearly Solvable Networks. CoRR abs/1601.03803 (2016) - [i8]Joseph Connelly, Kenneth Zeger:
Linear Network Coding over Rings, Part II: Vector Codes and Non-Commutative Alphabets. CoRR abs/1608.01737 (2016) - [i7]Joseph Connelly, Kenneth Zeger:
Linear Network Coding over Rings, Part I: Scalar Codes and Commutative Alphabets. CoRR abs/1608.01738 (2016) - 2015
- [j68]Randall Dougherty, Christopher F. Freiling, Kenneth Zeger:
Achievable Rate Regions for Network Coding. IEEE Trans. Inf. Theory 61(5): 2488-2509 (2015) - [j67]Randall Dougherty, Eric Freiling, Kenneth Zeger:
Characteristic-Dependent Linear Rank Inequalities With Applications to Network Coding. IEEE Trans. Inf. Theory 61(5): 2510-2530 (2015) - 2014
- [c35]Randall Dougherty, Eric Freiling, Kenneth Zeger:
Characteristic-dependent linear rank inequalities and network coding applications. ISIT 2014: 101-105 - [i6]Randall Dougherty, Eric Freiling, Kenneth Zeger:
Characteristic-Dependent Linear Rank Inequalities with Applications to Network Coding. CoRR abs/1401.2507 (2014) - 2013
- [j66]Rathinakumar Appuswamy, Massimo Franceschetti, Nikhil Karamchandani, Kenneth Zeger:
Linear Codes, Target Function Classes, and Network Computing Capacity. IEEE Trans. Inf. Theory 59(9): 5741-5753 (2013) - [i5]Randall Dougherty, Christopher F. Freiling, Kenneth Zeger:
Achievable Rate Regions for Network Coding. CoRR abs/1311.4601 (2013) - 2012
- [c34]Randall Dougherty, Christopher F. Freiling, Kenneth Zeger:
Achievable rate regions for network coding. ITA 2012: 160-167 - 2011
- [j65]Randall Dougherty, Christopher F. Freiling, Kenneth Zeger:
Network Coding and Matroid Theory. Proc. IEEE 99(3): 388-405 (2011) - [j64]Rathinakumar Appuswamy, Massimo Franceschetti, Nikhil Karamchandani, Kenneth Zeger:
Network Coding for Computing: Cut-Set Bounds. IEEE Trans. Inf. Theory 57(2): 1015-1030 (2011) - [c33]Rathinakumar Appuswamy, Massimo Franceschetti, Nikhil Karamchandani, Kenneth Zeger:
Linear coding for network computing. ISIT 2011: 2652-2655 - [i4]Rathinakumar Appuswamy, Massimo Franceschetti, Nikhil Karamchandani, Kenneth Zeger:
Network coding for computing: Linear codes. CoRR abs/1101.0085 (2011) - [i3]Randall Dougherty, Christopher F. Freiling, Kenneth Zeger:
Non-Shannon Information Inequalities in Four Random Variables. CoRR abs/1104.3602 (2011)
2000 – 2009
- 2009
- [j63]Jillian Cannons, Laurence B. Milstein, Kenneth Zeger:
An algorithm for wireless relay placement. IEEE Trans. Wirel. Commun. 8(11): 5564-5574 (2009) - [c32]Rathinakumar Appuswamy, Massimo Franceschetti, Nikhil Karamchandani, Kenneth Zeger:
Network computing capacity for the reverse butterfly network. ISIT 2009: 259-262 - [i2]Randall Dougherty, Christopher F. Freiling, Kenneth Zeger:
Linear rank inequalities on five or more variables. CoRR abs/0910.0284 (2009) - [i1]Rathinakumar Appuswamy, Massimo Franceschetti, Nikhil Karamchandani, Kenneth Zeger:
Network Coding for Computing Part I : Cut-Set Bounds. CoRR abs/0912.2820 (2009) - 2008
- [j62]Jillian Cannons, Kenneth Zeger:
Network Coding Capacity With a Constrained Number of Coding Nodes. IEEE Trans. Inf. Theory 54(3): 1287-1291 (2008) - [j61]Randall Dougherty, Christopher F. Freiling, Kenneth Zeger:
Linear Network Codes and Systems of Polynomial Equations. IEEE Trans. Inf. Theory 54(5): 2303-2316 (2008) - [c31]Rathinakumar Appuswamy, Massimo Franceschetti, Nikhil Karamchandani, Kenneth Zeger:
Network coding for computing. Allerton 2008: 1-6 - [c30]Randall Dougherty, Christopher F. Freiling, Kenneth Zeger:
Linear network codes and systems of polynomial equations. ISIT 2008: 1838-1842 - 2007
- [j60]Randall Dougherty, Christopher F. Freiling, Kenneth Zeger:
Networks, Matroids, and Non-Shannon Information Inequalities. IEEE Trans. Inf. Theory 53(6): 1949-1969 (2007) - 2006
- [j59]Benjamin Farber, Kenneth Zeger:
Quantizers with uniform decoders and channel-optimized encoders. IEEE Trans. Inf. Theory 52(2): 640-661 (2006) - [j58]Jillian Cannons, Randall Dougherty, Christopher F. Freiling, Kenneth Zeger:
Network routing capacity. IEEE Trans. Inf. Theory 52(3): 777-788 (2006) - [j57]Randall Dougherty, Christopher F. Freiling, Kenneth Zeger:
Unachievability of network coding capacity. IEEE Trans. Inf. Theory 52(6): 2365-2372 (2006) - [j56]Benjamin Farber, Kenneth Zeger:
Quantization of Multiple Sources Using Nonnegative Integer Bit Allocation. IEEE Trans. Inf. Theory 52(11): 4945-4964 (2006) - [j55]Randall Dougherty, Kenneth Zeger:
Nonreversibility and Equivalent Constructions of Multiple-Unicast Networks. IEEE Trans. Inf. Theory 52(11): 5067-5077 (2006) - [c29]Rathinakumar Appuswamy, Massimo Franceschetti, Kenneth Zeger:
Optimality of Linear Codes for Broadcast-Mode Multicast Networks. ISIT 2006: 50-53 - [c28]Randall Dougherty, Christopher F. Freiling, Kenneth Zeger:
Six New Non-Shannon Information Inequalities. ISIT 2006: 233-236 - [c27]Zsolt Kukorelly, Kenneth Zeger:
Automated Theorem Proving for Hexagonal Run Length Constrained Capacity Computation. ISIT 2006: 1199-1203 - 2005
- [j54]Randall Dougherty, Christopher F. Freiling, Kenneth Zeger:
Insufficiency of linear coding in network information flow. IEEE Trans. Inf. Theory 51(8): 2745-2759 (2005) - [j53]Zsolt Kukorelly, Kenneth Zeger:
Sufficient conditions for existence of binary fix-free codes. IEEE Trans. Inf. Theory 51(10): 3433-3444 (2005) - [c26]Benjamin Farber, Kenneth Zeger:
Quantization of Multiple Sources Using Integer Bit Allocation. DCC 2005: 368-377 - [c25]Jillian Cannons, Randall Dougherty, Christopher F. Freiling, Kenneth Zeger:
Network routing capacity. ISIT 2005: 11-13 - [c24]Randall Dougherty, Christopher F. Freiling, Kenneth Zeger:
Insufficiency of linear coding in network information flow. ISIT 2005: 264-267 - 2004
- [j52]Tamás Frajka, Kenneth Zeger:
Downsampling dependent upsampling of images. Signal Process. Image Commun. 19(3): 257-265 (2004) - [j51]Benjamin Farber, Kenneth Zeger:
Quantizers with uniform encoders and channel optimized decoders. IEEE Trans. Inf. Theory 50(1): 62-77 (2004) - [j50]Michelle Effros, Hanying Feng, Kenneth Zeger:
Suboptimality of the Karhunen-Loève Transform for Transform Coding. IEEE Trans. Inf. Theory 50(8): 1605-1619 (2004) - [j49]Randall Dougherty, Christopher F. Freiling, Kenneth Zeger:
Linearity and solvability in multicast networks. IEEE Trans. Inf. Theory 50(10): 2243-2256 (2004) - [j48]Zsigmond Nagy, Kenneth Zeger:
Bit-stuffing algorithms and analysis for run-length constrained channels in two and three dimensions. IEEE Trans. Inf. Theory 50(12): 3146-3169 (2004) - [c23]Zsigmond Nagy, Kenneth Zeger:
Capacity bounds for the hard-triangle model. ISIT 2004: 162 - [c22]Benjamin Farber, Kenneth Zeger:
Cell density functions and effective channel code rates for quantizers with uniform decoders and channel optimized encoders. ISIT 2004: 429 - 2003
- [j47]Zsigmond Nagy, Kenneth Zeger:
Asymptotic capacity of two-dimensional channels with checkerboard constraints. IEEE Trans. Inf. Theory 49(9): 2115-2125 (2003) - [j46]Christopher F. Freiling, Douglas S. Jungreis, François Théberge, Kenneth Zeger:
Almost all complete binary prefix codes have a self-synchronizing string. IEEE Trans. Inf. Theory 49(9): 2219-2225 (2003) - [c21]Michelle Effros, Hanying Feng, Kenneth Zeger:
Suboptimality of the Karhuenen-Loève Transform for Transform Coding. DCC 2003: 293-302 - 2002
- [j45]Erik Agrell, Thomas Eriksson
Closest point search in lattices. IEEE Trans. Inf. Theory 48(8): 2201-2214 (2002) - [j44]Jon Hamkins, Kenneth Zeger:
Gaussian source coding with spherical codes. IEEE Trans. Inf. Theory 48(11): 2980-2989 (2002) - [c20]Benjamin Farber, Kenneth Zeger:
Quantizers with Uniform Encoders and Channel Optimized Decoders. DCC 2002: 292-301 - [c19]Kenneth Zeger:
Suboptimality of the Karhunen-Loeve transform for fixed-rate transform coding. GLOBECOM 2002: 1224-1228 - [c18]Tamás Frajka, Kenneth Zeger:
Residual image coding for stereo image compression. ICIP (2) 2002: 271-220 - 2001
- [j43]Marc P. C. Fossorier, Zixiang Xiong, Kenneth Zeger:
Progressive source coding for a power constrained Gaussian channel. IEEE Trans. Commun. 49(8): 1301-1306 (2001) - [j42]Erik Agrell, Alexander Vardy
A table of upper bounds for binary codes. IEEE Trans. Inf. Theory 47(7): 3004-3006 (2001) - [c17]Tamás Frajka, Kenneth Zeger:
Robust packet image transmission by wavelet coefficient dispersement. ICASSP 2001: 1745-1748 - 2000
- [j41]Balázs Kégl, Adam Krzyzak, Tamás Linder, Kenneth Zeger:
Learning and Design of Principal Curves. IEEE Trans. Pattern Anal. Mach. Intell. 22(3): 281-297 (2000) - [j40]Pamela C. Cosman
Combined forward error control and packetized zerotree wavelet encoding for transmission of images over varying channels. IEEE Trans. Image Process. 9(6): 982-993 (2000) - [j39]Zsigmond Nagy, Kenneth Zeger:
Capacity bounds for the three-dimensional (0, 1) run length limited channel. IEEE Trans. Inf. Theory 46(3): 1030-1033 (2000) - [j38]András Méhes, Kenneth Zeger:
Source and channel rate allocation for channel codes satisfying the Gilbert-Varshamov or Tsfasman-Vladut-Zink bounds. IEEE Trans. Inf. Theory 46(6): 2133-2151 (2000) - [j37]Erik Agrell, Alexander Vardy
Upper bounds for constant-weight codes. IEEE Trans. Inf. Theory 46(7): 2373-2395 (2000) - [j36]András Méhes, Kenneth Zeger:
Performance of quantizers on noisy channels using structured families of codes. IEEE Trans. Inf. Theory 46(7): 2468-2476 (2000) - [j35]Akiko Kato, Kenneth Zeger:
Partial characterization of the positive capacity region of two-dimensional asymmetric run length constrained channels. IEEE Trans. Inf. Theory 46(7): 2666-2670 (2000) - [j34]Tamás Linder, Ram Zamir, Kenneth Zeger:
On source coding with side-information-dependent distortion measures. IEEE Trans. Inf. Theory 46(7): 2697-2704 (2000) - [c16]P. Greg Sherwood, Xiaodong Tian, Kenneth Zeger:
Efficient Image and Channel Coding for Wireless Packet Networks. ICIP 2000: 132-135
1990 – 1999
- 1999
- [j33]Hisashi Ito, Akiko Kato, Zsigmond Nagy, Kenneth Zeger:
Zero Capacity Region of Multidimensional Run Length Constraints. Electron. J. Comb. 6 (1999) - [j32]Tamás Linder, Ram Zamir, Kenneth Zeger:
High-Resolution Source Coding for Non-Difference Distortion Measures: Multidimensional Companding. IEEE Trans. Inf. Theory 45(2): 548-561 (1999) - [j31]Vahid Tarokh, Alexander Vardy
Universal Bound on the Performance of Lattice Codes. IEEE Trans. Inf. Theory 45(2): 670-681 (1999) - [j30]András Méhes, Kenneth Zeger:
Randomly Chosen Index Assignments Are Asymptotically Bad for Uniform Sources. IEEE Trans. Inf. Theory 45(2): 788-794 (1999) - [j29]Akiko Kato, Kenneth Zeger:
On the capacity of two-dimensional run-length constrained channels. IEEE Trans. Inf. Theory 45(5): 1527-1540 (1999) - [j28]András György
On the rate-distortion function of random vectors and stationary sources with mixed distributions. IEEE Trans. Inf. Theory 45(6): 2110-2115 (1999) - [c15]Zsigmond Nagy, Kenneth Zeger:
Capacity Bounds for the 3-Dimensional (0, 1) Runlength Limited Channel. AAECC 1999: 245-251 - [c14]András Méhes, Kenneth Zeger:
Performance of Quantizers on Noisy Channels Using Structured Families of Codes. Data Compression Conference 1999: 473-482 - [c13]P. Greg Sherwood, Xiaodong Tian, Kenneth Zeger:
Channel code blocklength and rate optimization for progressive image transmission. WCNC 1999: 978-982 - 1998
- [j27]Pamela C. Cosman
Memory constrained wavelet based image coding. IEEE Signal Process. Lett. 5(9): 221-223 (1998) - [j26]P. Greg Sherwood, Kenneth Zeger:
Error protection for progressive image transmission over memoryless and fading channels. IEEE Trans. Commun. 46(12): 1555-1559 (1998) - [j25]András Méhes, Kenneth Zeger:
Binary Lattice Vector Quantization with Linear Block Codes and Affine Index Assignments. IEEE Trans. Inf. Theory 44(1): 79-94 (1998) - [c12]Tamás Linder, Ram Zamir, Kenneth Zeger:
The Multiple Description Rate Region for High Resolution Source Coding. Data Compression Conference 1998: 149-158 - [c11]Pamela C. Cosman, Tamás Frajka, Kenneth Zeger:
Image Compression for Memory Constrained Printers. ICIP (3) 1998: 109-113 - [c10]Marc P. C. Fossorier, Zixiang Xiong, Kenneth Zeger:
Joint Source-Channel Image Coding for a Power Constrained Noisy Channel. ICIP (2) 1998: 122-126 - [c9]P. Greg Sherwood, Kenneth Zeger:
Error Protection for Progressive Image Transmission over Memoryless and Fading Channels. ICIP (1) 1998: 324-328 - [c8]Balázs Kégl, Adam Krzyzak, Tamás Linder, Kenneth Zeger:
A Polygonal Line Algorithm for Constructing Principal Curves. NIPS 1998: 501-507 - 1997
- [j24]P. Greg Sherwood, Kenneth Zeger:
Progressive image coding for noisy channels. IEEE Signal Process. Lett. 4(7): 189-191 (1997) - [j23]Tamás Linder, Gábor Lugosi, Kenneth Zeger:
Empirical quantizer design in the presence of source noise or channel noise. IEEE Trans. Inf. Theory 43(2): 612-623 (1997) - [j22]Jon Hamkins, Kenneth Zeger:
Improved bounds on maximum size binary radar arrays. IEEE Trans. Inf. Theory 43(3): 997-1000 (1997) - [j21]Bertrand M. Hochwald, Kenneth Zeger:
Tradeoff between source and channel coding. IEEE Trans. Inf. Theory 43(5): 1412-1424 (1997) - [j20]Jon Hamkins, Kenneth Zeger:
Asymptotically dense spherical codes - Part h Wrapped spherical codes. IEEE Trans. Inf. Theory 43(6): 1774-1785 (1997) - [j19]Jon Hamkins, Kenneth Zeger:
Asymptotically dense spherical codes - Part II: Laminated spherical codes. IEEE Trans. Inf. Theory 43(6): 1786-1798 (1997) - [j18]Tamás Linder, Vahid Tarokh, Kenneth Zeger:
Existence of optimal prefix codes for infinite source alphabets. IEEE Trans. Inf. Theory 43(6): 2026-2028 (1997) - [c7]P. Greg Sherwood, Kenneth Zeger:
Progressive Image Coding on Noisy Channels. Data Compression Conference 1997: 72-81 - [c6]Tamás Frajka, P. Greg Sherwood, Kenneth Zeger:
Progressive Image Coding with Spatially Variable Resolution. ICIP (1) 1997: 53-56 - 1996
- [j17]Gábor Lugosi
Concept learning using complexity regularization. IEEE Trans. Inf. Theory 42(1): 48-54 (1996) - [j16]Tamás Linder, Kenneth Zeger:
On the cost of finite block length in quantizing unbounded memoryless sources. IEEE Trans. Inf. Theory 42(2): 480-487 (1996) - [c5]Tamás Linder, Gábor Lugosi, Kenneth Zeger:
Designing Vector Quantizers in the Presence of Source Noise or Channel Noise. Data Compression Conference 1996: 33-42 - 1995
- [j15]Tamás Linder, Gábor Lugosi
Fixed-rate universal lossy source coding and rates of convergence for memoryless sources. IEEE Trans. Inf. Theory 41(3): 665-676 (1995) - [j14]Gábor Lugosi
Nonparametric estimation via empirical risk minimization. IEEE Trans. Inf. Theory 41(3): 677-687 (1995) - 1994
- [j13]Kenneth Zeger, Anurag Bist, Tamás Linder:
Universal source coding with codebook transmission. IEEE Trans. Commun. 42(234): 336-346 (1994) - [j12]Tamás Linder, Kenneth Zeger:
Asymptotic entropy-constrained performance of tessellating and universal randomized lattice quantization. IEEE Trans. Inf. Theory 40(2): 575-579 (1994) - [j11]Kenneth Zeger, Allen Gersho:
Number of nearest neighbors in a Euclidean code. IEEE Trans. Inf. Theory 40(5): 1647-1649 (1994) - [j10]Tamás Linder, Gábor Lugosi
Rates of convergence in the source coding theorem, in empirical quantizer design, and in universal lossy source coding. IEEE Trans. Inf. Theory 40(6): 1728-1740 (1994) - [j9]Kenneth Zeger, V. Manzella:
Asymptotic bounds on optimal noisy channel optimization via random coding. IEEE Trans. Inf. Theory 40(6): 1926-1938 (1994) - 1993
- [j8]Kenneth Zeger, Miriam R. Kantorovitz:
Average number of facets per cell in tree-structured vector quantizer partitions. IEEE Trans. Inf. Theory 39(3): 1053-1055 (1993) - [j7]Tamás Linder, Christian Schlegel, Kenneth Zeger:
Corrected proof of de Buda's theorem. IEEE Trans. Inf. Theory 39(5): 1735- (1993) - [c4]Tamás Linder, Gábor Lugosi, Kenneth Zeger:
Universality and Rates of Convergence in Lossy Source Coding. Data Compression Conference 1993: 89-97 - 1992
- [j6]Kris Popat, Kenneth Zeger:
Robust quantization of memoryless sources using dispersive FIR filters. IEEE Trans. Commun. 40(11): 1670-1674 (1992) - [j5]Eyal Yair, Kenneth Zeger, Allen Gersho:
Competitive learning and soft competition for vector quantizer design. IEEE Trans. Signal Process. 40(2): 294-309 (1992) - [j4]Kenneth Zeger, Jacques Vaisey, Allen Gersho:
Globally optimal vector quantizer design by stochastic relaxation. IEEE Trans. Signal Process. 40(2): 310-322 (1992) - [c3]Kenneth Zeger, Anurag Bist:
Universal adaptive vector quantization using codebook quantization with application to image compression. ICASSP 1992: 381-384 - 1991
- [j3]Kenneth Zeger:
Corrections to 'Gradient algorithms for designing predictive vector quantizers'. IEEE Trans. Signal Process. 39(3): 764-765 (1991) - [c2]Kenneth Zeger, Allen Gersho:
A parallel processing algorithm for vector quantizer design based on subpartitioning. ICASSP 1991: 1141-1143 - 1990
- [j2]Hai-Ning Liu, Celia Wrathall, Kenneth Zeger:
Efficient Solution to Some Problems in Free Partially Commutative Monoids. Inf. Comput. 89(2): 180-198 (1990) - [j1]Kenneth Zeger, Allen Gersho:
Pseudo-Gray coding. IEEE Trans. Commun. 38(12): 2147-2158 (1990) - [c1]Eyal Yair, Kenneth Zeger, Allen Gersho:
Conjugate gradient methods for designing vector quantizers. ICASSP 1990: 245-248
Coauthor Index
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