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ORCIDGerhard Kramer
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- affiliation: Technical University Munich, Germany
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2020 – today
- 2024
[j74]M. Yusuf Sener
, Ronald Böhnke, Wen Xu, Gerhard Kramer:
Achieving the Dirty Paper Channel Capacity With Scalar Lattices and Probabilistic Shaping. IEEE Commun. Lett. 28(1): 29-33 (2024)- [j73]Kumar Vijay Mishra, Rodrigo C. de Lamare, Michail Matthaiou, Gerhard Kramer, Edward W. Knightly, Daniel M. Mittleman:
Guest Editorial: Introduction to the Special Issue on Electromagnetic Signal and Information Theory for Communications. IEEE J. Sel. Areas Commun. 42(6): 1475-1478 (2024) - [j72]Tobias Prinz, Daniel Plabst, Thomas Wiegart, Stefano Calabrò, Norbert Hanik, Gerhard Kramer:
Successive Interference Cancellation for Bandlimited Channels With Direct Detection. IEEE Trans. Commun. 72(3): 1330-1340 (2024) - [c107]Antonino Favano, Luca Barletta, Alex Dytso, Gerhard Kramer:
Capacity-Achieving Input of Non-Coherent Rayleigh Fading Channels: Bounds on the Number of Mass Points. ICC 2024: 4126-4131 - [c106]Daniel Plabst, Tobias Prinz, Francesca Diedolo, Thomas Wiegart, Georg Böcherer, Norbert Hanik, Gerhard Kramer:
Neural Network Equalizers and Successive Interference Cancellation for Bandlimited Channels with a Nonlinearity. ISIT 2024: 1197-1202 - [c105]Constantin Runge, Gerhard Kramer:
Time-Shifted Alternating Gelfand-Pinsker Coding for Broadcast Channels. ISIT 2024: 1700-1705 - [c104]M. Yusuf Sener, Gerhard Kramer, Shlomo Shamai Shitz, Ronald Böhnke, Wen Xu:
Achieving Gaussian Vector Broadcast Channel Capacity with Scalar Lattices. ISIT 2024: 1706-1711 - [c103]Alex Dytso, Luca Barletta, Gerhard Kramer:
On $2\times 2$ MIMO Gaussian Channels with a Small Discrete-Time Peak-Power Constraint. ISIT 2024: 2365-2370 - [i95]Daniel Plabst, Tobias Prinz, Francesca Diedolo, Thomas Wiegart, Georg Böcherer, Norbert Hanik, Gerhard Kramer:
Neural Network Equalizers and Successive Interference Cancellation for Bandlimited Channels with a Nonlinearity. CoRR abs/2401.09217 (2024) - [i94]Alex Dytso, Luca Barletta, Gerhard Kramer:
On 2×2 MIMO Gaussian Channels with a Small Discrete-Time Peak-Power Constraint. CoRR abs/2401.17084 (2024) - [i93]M. Yusuf Sener, Gerhard Kramer, Shlomo Shamai, Ronald Böhnke, Wen Xu:
Achieving Gaussian Vector Broadcast Channel Capacity with Scalar Lattices. CoRR abs/2402.04942 (2024) - [i92]Alex Jäger, Gerhard Kramer:
Information Rates of Successive Interference Cancellation for Optical Fiber. CoRR abs/2403.15240 (2024) - [i91]Mohammad Mahdi Mahvari, Gerhard Kramer:
Stability of the Ghurye-Olkin Characterization of Vector Gaussian Distributions. CoRR abs/2405.01707 (2024) - [i90]Alex Jäger, Gerhard Kramer:
Successive Interference Cancellation for Optical Fiber Using Discrete Constellations. CoRR abs/2405.03232 (2024) - [i89]Thomas Wiegart, Daniel Plabst, Norbert Hanik, Gerhard Kramer:
Optimizing Bipolar Constellations for High-Rate Transmission in Short-Reach Fiber Links with Direct Detection. CoRR abs/2407.05192 (2024) - [i88]Constantin Runge, Gerhard Kramer:
Time-Shifted Alternating Gelfand-Pinsker Coding for Broadcast Channels. CoRR abs/2407.17576 (2024) - [i87]Daniel Plabst, Tobias Prinz, Francesca Diedolo, Thomas Wiegart, Georg Böcherer, Norbert Hanik, Gerhard Kramer:
Neural Network Equalizers and Successive Interference Cancellation for Bandlimited Channels with a Nonlinearity. CoRR abs/2408.15767 (2024) - 2023
- [j71]Andrei Stefan Nedelcu, Fabian Steiner, Gerhard Kramer:
Correction: Nedelcu et al. Low-Resolution Precoding for Multi-Antenna Downlink Channels and OFDM. Entropy 2022, 24, 504. Entropy 25(3): 445 (2023) - [j70]Gerhard Kramer:
Information Rates for Channels with Fading, Side Information and Adaptive Codewords. Entropy 25(5): 728 (2023) - [j69]Mohammad Mahdi Mahvari, Gerhard Kramer:
Stability of Bernstein's Theorem and Soft Doubling for Vector Gaussian Channels. IEEE Trans. Inf. Theory 69(10): 6231-6250 (2023) - [c102]Amin Gohari, Gerhard Kramer:
An Upper Bound on Secret Key Rates for General Multiterminal Wiretap Channels. ISIT 2023: 2320-2325 - [c101]Mohammad Mahdi Mahvari, Gerhard Kramer:
Stability of Bernstein's Characterization of Gaussian Vectors and a Soft Doubling Argument. ITW 2023: 19-23 - [i86]Gerhard Kramer:
Information Rates for Channels with Fading, Side Information and Adaptive Codewords. CoRR abs/2302.02903 (2023) - 2022
- [j68]Andrei Stefan Nedelcu, Fabian Steiner, Gerhard Kramer:
Low-Resolution Precoding for Multi-Antenna Downlink Channels and OFDM. Entropy 24(4): 504 (2022) - [j67]Patrick Schulte, Rana Ali Amjad, Thomas Wiegart, Gerhard Kramer:
Invertible Low-Divergence Coding. IEEE Trans. Inf. Theory 68(1): 178-192 (2022) - [i85]Andrei Stefan Nedelcu, Fabian Steiner, Gerhard Kramer:
Low-Resolution Precoding for Multi-Antenna Downlink Channels and OFDM. CoRR abs/2201.11202 (2022) - [i84]Thomas Wiegart, Daniel Plabst, Tobias Prinz, Talha Rahman, Maximilian Schädler, Nebojsa Stojanovic, Stefano Calabrò, Norbert Hanik, Gerhard Kramer:
Experiments on Bipolar Transmission with Direct Detection. CoRR abs/2205.05453 (2022) - [i83]Tobias Prinz, Thomas Wiegart, Daniel Plabst, Talha Rahman, Md. Sabbir-Bin Hossain, Nebojsa Stojanovic, Stefano Calabrò, Norbert Hanik, Gerhard Kramer:
Comparison of PAM-6 Modulations for Short-Reach Fiber-Optic Links with Intensity Modulation and Direct Detection. CoRR abs/2205.05460 (2022) - [i82]Mohammad Mahdi Mahvari, Gerhard Kramer:
Stability of Bernstein's Theorem and Soft Doubling for Vector Gaussian Channels. CoRR abs/2212.04484 (2022) - [i81]Tobias Prinz, Daniel Plabst, Thomas Wiegart, Stefano Calabrò, Norbert Hanik, Gerhard Kramer:
Successive Interference Cancellation for Fiber-Optic Channels with Direct Detection. CoRR abs/2212.07761 (2022) - [i80]Diego Lentner, Emna Ben Yacoub, Stefano Calabrò, Georg Böcherer, Nebojsa Stojanovic, Gerhard Kramer:
Concatenated Forward Error Correction with KP4 and Single Parity Check Codes. CoRR abs/2212.10523 (2022) - 2021
- [j66]Peihong Yuan, Mustafa Cemil Coskun, Gerhard Kramer:
Polar-Coded Non-Coherent Communication. IEEE Commun. Lett. 25(6): 1786-1790 (2021) - [j65]M. Yusuf Sener, Ronald Böhnke, Wen Xu, Gerhard Kramer:
Dirty Paper Coding Based on Polar Codes and Probabilistic Shaping. IEEE Commun. Lett. 25(12): 3810-3813 (2021) - [c100]Gerhard Kramer:
Divergence Scaling for Distribution Matching. ISIT 2021: 1159-1163 - [c99]Francisco Javier García Gómez, Gerhard Kramer:
Regular Perturbation and Achievable Rates of Space-Division Multiplexed Optical Channels. ISWCS 2021: 1-5 - [c98]Gerhard Kramer:
Feedback Gains for Gaussian Massive Multiple-Access Channels. ITW 2021: 1-3 - [i79]Vladimir Sidorenko, Wenhui Li, Onur Günlü, Gerhard Kramer:
On Skew Convolutional and Trellis Codes. CoRR abs/2102.01510 (2021) - [i78]Peihong Yuan, Mustafa Cemil Coskun, Gerhard Kramer:
Polar-Coded Non-Coherent Communication. CoRR abs/2102.10719 (2021) - [i77]Francisco Javier García Gómez, Gerhard Kramer:
Mismatched Models to Lower Bound the Capacity of Dual-Polarization Optical Fiber Channels. CoRR abs/2104.07979 (2021) - [i76]Gerhard Kramer:
Divergence Scaling for Distribution Matching. CoRR abs/2105.00406 (2021) - [i75]Gerhard Kramer:
Feedback Gains for Gaussian Massive Multiple-Access Channels. CoRR abs/2105.03901 (2021) - [i74]Francisco Javier García Gómez, Gerhard Kramer:
Regular Perturbation and Achievable Rates of Space-Division Multiplexed Optical Channels. CoRR abs/2107.08858 (2021) - [i73]Daniel Plabst, Tobias Prinz, Thomas Wiegart, Talha Rahman, Nebojsa Stojanovic, Stefano Calabrò, Norbert Hanik, Gerhard Kramer:
Achievable Rates for Short-Reach Fiber-Optic Channels with Direct Detection. CoRR abs/2111.07865 (2021) - 2020
- [j64]Stefan Dierks, Gerhard Kramer, Berthold Panzner, Wolfgang Zirwas:
Information rates of precoding for massive MIMO and base station cooperation in an indoor scenario. EURASIP J. Wirel. Commun. Netw. 2020(1): 22 (2020) - [j63]Vladimir Sidorenko, Wenhui Li, Onur Günlü, Gerhard Kramer:
Skew Convolutional Codes. Entropy 22(12): 1364 (2020) - [j62]Erixhen Sula, Michael Gastpar, Gerhard Kramer:
Sum-Rate Capacity for Symmetric Gaussian Multiple Access Channels With Feedback. IEEE Trans. Inf. Theory 66(5): 2860-2871 (2020) - [j61]Amin Gohari, Onur Günlü, Gerhard Kramer:
Coding for Positive Rate in the Source Model Key Agreement Problem. IEEE Trans. Inf. Theory 66(10): 6303-6323 (2020) - [c97]Vladimir Sidorenko, Wenhui Li, Gerhard Kramer:
On interleaved rank metric codes. ACCT 2020: 128-134 - [c96]Thomas Jerkovits, Onur Günlü, Vladimir Sidorenko, Gerhard Kramer:
Nested Tailbiting Convolutional Codes for Secrecy, Privacy, and Storage. IH&MMSec 2020: 79-89 - [c95]Diego Lentner, Gerhard Kramer:
Stealth Communication with Vanishing Power over Binary Symmetric Channels. ISIT 2020: 822-827 - [c94]Vladimir Sidorenko, Wenhui Li, Onur Günlü, Gerhard Kramer:
On Skew Convolutional and Trellis Codes. ITW 2020: 1-5 - [i72]Onur Günlü, Tasnad Kernetzky, Onurcan Iscan, Vladimir Sidorenko, Gerhard Kramer, Rafael F. Schaefer:
Secure and Reliable Key Agreement with Physical Unclonable Functions. CoRR abs/2002.11687 (2020) - [i71]Francisco Javier García Gómez, Gerhard Kramer:
Mismatched Models to Lower Bound the Capacity of Optical Fiber Channels. CoRR abs/2004.04709 (2020) - [i70]Thomas Jerkovits, Onur Günlü, Vladimir Sidorenko, Gerhard Kramer:
Nested Tailbiting Convolutional Codes for Secrecy, Privacy, and Storage. CoRR abs/2004.13095 (2020) - [i69]Diego Lentner, Gerhard Kramer:
Stealth Communication with Vanishing Power over Binary Symmetric Channels. CoRR abs/2005.06313 (2020) - [i68]Amin Gohari, Gerhard Kramer:
An Upper Bound for Wiretap Multi-way Channels. CoRR abs/2009.14814 (2020) - [i67]Patrick Schulte, Rana Ali Amjad, Thomas Wiegart, Gerhard Kramer:
Invertible Low-Divergence Coding. CoRR abs/2010.10583 (2020)
2010 – 2019
- 2019
- [j60]Mohit Thakur, Gerhard Kramer:
Quasi-Concavity for Gaussian Multicast Relay Channels. Entropy 21(2): 109 (2019) - [j59]Onur Günlü, Onurcan Iscan, Vladimir Sidorenko, Gerhard Kramer:
Code Constructions for Physical Unclonable Functions and Biometric Secrecy Systems. IEEE Trans. Inf. Forensics Secur. 14(11): 2848-2858 (2019) - [c93]Marcin Pikus, Wen Xu, Gerhard Kramer:
Finite-Precision Implementation of Arithmetic Coding Based Distribution Matchers. GLOBECOM 2019: 1-6 - [c92]Mari Kobayashi, Hassan Hamad, Gerhard Kramer, Giuseppe Caire:
Joint State Sensing and Communication over Memoryless Multiple Access Channels. ISIT 2019: 270-274 - [c91]Onur Günlü, Rafael F. Schaefer, Gerhard Kramer:
Private Authentication with Physical Identifiers Through Broadcast Channel Measurements. ITW 2019: 1-5 - [c90]Wenhui Li, Vladimir Sidorenko, Thomas Jerkovits, Gerhard Kramer:
On Maximum-Likelihood Decoding of Time-Varying Trellis Codes. REDUNDANCY 2019: 104-109 - [i66]Mari Kobayashi, Hassan Hamad, Gerhard Kramer, Giuseppe Caire:
Joint State Sensing and Communication over Memoryless Multiple Access Channels. CoRR abs/1902.03775 (2019) - [i65]Onur Günlü, Rafael F. Schaefer, Gerhard Kramer:
Private Authentication with Physical Identifiers Through Broadcast Channel Measurements. CoRR abs/1907.01081 (2019) - [i64]Marcin Pikus, Wen Xu, Gerhard Kramer:
Finite-Precision Implementation of Arithmetic Coding Based Distribution Matchers. CoRR abs/1907.12066 (2019) - [i63]Onur Günlü, Onurcan Iscan, Vladimir Sidorenko, Gerhard Kramer:
Code Constructions for Physical Unclonable Functions and Biometric Secrecy Systems. IACR Cryptol. ePrint Arch. 2019: 759 (2019) - 2018
- [j58]Onur Günlü, Tasnad Kernetzky, Onurcan Iscan, Vladimir Sidorenko, Gerhard Kramer, Rafael F. Schaefer:
Secure and Reliable Key Agreement with Physical Unclonable Functions. Entropy 20(5): 340 (2018) - [j57]Markus Leinonen, Marian Codreanu, Markku J. Juntti, Gerhard Kramer:
Rate-Distortion Performance of Lossy Compressed Sensing of Sparse Sources. IEEE Trans. Commun. 66(10): 4498-4512 (2018) - [j56]Onur Günlü, Gerhard Kramer:
Privacy, Secrecy, and Storage With Multiple Noisy Measurements of Identifiers. IEEE Trans. Inf. Forensics Secur. 13(11): 2872-2883 (2018) - [j55]Gerhard Kramer:
Autocorrelation Function for Dispersion-Free Fiber Channels With Distributed Amplification. IEEE Trans. Inf. Theory 64(7): 5131-5155 (2018) - [c89]Mari Kobayashi, Giuseppe Caire, Gerhard Kramer:
Joint State Sensing and Communication: Optimal Tradeoff for a Memoryless Case. ISIT 2018: 111-115 - [c88]Erixhen Sula, Michael Gastpar, Gerhard Kramer:
Sum-Rate Capacity for Symmetric Gaussian Multiple Access Channels with Feedback. ISIT 2018: 306-310 - [c87]Amin Gohari, Onur Günlü, Gerhard Kramer:
On Achieving a Positive Rate in the Source Model Key Agreement Problem. ISIT 2018: 2659-2663 - [c86]Fabian Steiner, Gerhard Kramer:
Optimization of Bit Mapping and Quantized Decoding for Off-the-Shelf Protograph LDPC Codes with Application to IEEE 802.3ca. ISTC 2018: 1-5 - [c85]Fabian Steiner, Francesco Da Ros, Metodi Plamenov Yankov, Georg Bocherer, Patrick Schulte, Søren Forchhammer, Gerhard Kramer:
Experimental Verification of Rate Flexibility and Probabilistic Shaping by 4D Signaling. OFC 2018: 1-3 - [c84]Andrei S. Nedelcu, Fabian Steiner, Markus Staudacher, Gerhard Kramer, Wolfgang Zirwas, Rakash SivaSiva Ganesan, Paolo Baracca, Stefan Wesemann:
Quantized Precoding for Multi-Antenna Downlink Channels with MAGIQ. WSA 2018: 1-8 - [i62]Stefan Dierks, Gerhard Kramer, Berthold Panzner, Wolfgang Zirwas:
Analysis of Massive MIMO and Base Station Cooperation in an Indoor Scenario. CoRR abs/1801.02888 (2018) - [i61]Fabian Steiner, Francesco Da Ros, Metodi Plamenov Yankov, Georg Böcherer, Patrick Schulte, Søren Forchhammer, Gerhard Kramer:
Experimental Verification of Rate Flexibility and Probabilistic Shaping by 4D Signaling. CoRR abs/1803.06746 (2018) - [i60]Mari Kobayashi, Giuseppe Caire, Gerhard Kramer:
Joint State Sensing and Communication: Optimal Tradeoff for a Memoryless Case. CoRR abs/1805.05713 (2018) - [i59]Fabian Steiner, Gerhard Kramer:
Optimization of Bit Mapping and Quantized Decoding for Off-the-Shelf Protograph LDPC Codes with Application to IEEE 802.3ca. CoRR abs/1810.00469 (2018) - [i58]Erixhen Sula, Michael Gastpar, Gerhard Kramer:
Sum-Rate Capacity for Symmetric Gaussian Multiple Access Channels with Feedback. CoRR abs/1811.09525 (2018) - [i57]Onur Günlü, Tasnad Kernetzky, Onurcan Iscan, Vladimir Sidorenko, Gerhard Kramer, Rafael F. Schaefer:
Secure and Reliable Key Agreement with Physical Unclonable Functions. IACR Cryptol. ePrint Arch. 2018: 518 (2018) - 2017
- [j54]Shirin Saeedi Bidokhti, Gerhard Kramer, Shlomo Shamai:
Capacity Bounds on the Downlink of Symmetric, Multi-Relay, Single-Receiver C-RAN Networks. Entropy 19(11): 610 (2017) - [j53]Ziv Goldfeld, Gerhard Kramer, Haim H. Permuter, Paul Cuff:
Strong Secrecy for Cooperative Broadcast Channels. IEEE Trans. Inf. Theory 63(1): 469-495 (2017) - [j52]Hassan Ghozlan, Gerhard Kramer:
Models and Information Rates for Wiener Phase Noise Channels. IEEE Trans. Inf. Theory 63(4): 2376-2393 (2017) - [j51]Andrew Thangaraj, Gerhard Kramer, Georg Böcherer:
Capacity Bounds for Discrete-Time, Amplitude-Constrained, Additive White Gaussian Noise Channels. IEEE Trans. Inf. Theory 63(7): 4172-4182 (2017) - [j50]Ziv Goldfeld, Gerhard Kramer, Haim H. Permuter:
Broadcast Channels With Privacy Leakage Constraints. IEEE Trans. Inf. Theory 63(8): 5138-5161 (2017) - [j49]Hassan Ghozlan, Gerhard Kramer:
Models and Information Rates for Multiuser Optical Fiber Channels With Nonlinearity and Dispersion. IEEE Trans. Inf. Theory 63(10): 6440-6456 (2017) - [c83]Shirin Saeedi Bidokhti, Gerhard Kramer, Shlomo Shamai Shitz:
Capacity bounds on the downlink of symmetric, multi-relay, single receiver C-RAN networks. ISIT 2017: 2058-2062 - [c82]Markus Staudacher, Gerhard Kramer, Wolfgang Zirwas, Berthold Panzner, Rakash SivaSiva Ganesan:
Optimized Combination of Conventional and Constrained Massive MIMO Arrays. WSA 2017: 1-4 - [i56]Shirin Saeedi Bidokhti, Gerhard Kramer, Shlomo Shamai:
Capacity Bounds on the Downlink of Symmetric, Multi-Relay, Single Receiver C-RAN Networks. CoRR abs/1702.01828 (2017) - [i55]Markus Staudacher, Gerhard Kramer, Wolfgang Zirwas, Berthold Panzner, Rakash SivaSiva Ganesan:
Constructing Receiver Signal Points using Constrained Massive MIMO Arrays. CoRR abs/1702.02414 (2017) - [i54]Gerhard Kramer:
Autocorrelation Function for Dispersion-Free Fiber Channels with Distributed Amplification. CoRR abs/1705.00454 (2017) - [i53]Javier Garcia, Hassan Ghozlan, Gerhard Kramer:
Energy Conservation and Decoupling in Optical Fibers with Brick-Walls Attenuation Profile. CoRR abs/1707.05018 (2017) - [i52]Onur Günlü, Onurcan Iscan, Vladimir Sidorenko, Gerhard Kramer:
Wyner-Ziv Coding for Physical Unclonable Functions and Biometric Secrecy Systems. CoRR abs/1709.00275 (2017) - [i51]Amin Gohari, Onur Günlü, Gerhard Kramer:
On Achieving a Positive Rate in the Source Model Key Agreement Problem. CoRR abs/1709.05174 (2017) - [i50]Andrei S. Nedelcu, Fabian Steiner, Markus Staudacher, Gerhard Kramer, Wolfgang Zirwas, Rakash SivaSiva Ganesan, Paolo Baracca, Stefan Wesemann:
Quantized Precoding for Multi-Antenna Downlink Channels with MAGIQ. CoRR abs/1712.08735 (2017) - 2016
- [j48]Marcin Pikus, Gerhard Kramer, Georg Böcherer:
Discrete Signaling for Non-Coherent, Single-Antenna, Rayleigh Block-Fading Channels. IEEE Commun. Lett. 20(4): 764-767 (2016) - [j47]Jie Hou, Gerhard Kramer:
Short Message Noisy Network Coding With a Decode-Forward Option. IEEE Trans. Inf. Theory 62(1): 89-107 (2016) - [j46]Ziv Goldfeld, Haim H. Permuter, Gerhard Kramer:
Duality of a Source Coding Problem and the Semi-Deterministic Broadcast Channel With Rate-Limited Cooperation. IEEE Trans. Inf. Theory 62(5): 2285-2307 (2016) - [j45]Shirin Saeedi Bidokhti, Gerhard Kramer:
Capacity Bounds for Diamond Networks With an Orthogonal Broadcast Channel. IEEE Trans. Inf. Theory 62(12): 7103-7122 (2016) - [c81]Onur Günlü, Onurcan Iscan, Vladimir Sidorenko, Gerhard Kramer:
Reliable secret-key binding for physical unclonable functions with transform coding. GlobalSIP 2016: 986-991 - [c80]Shirin Saeedi Bidokhti, Gerhard Kramer:
Capacity of two-relay diamond networks with rate-limited links to the relays and a binary adder multiple access channel. ISIT 2016: 1665-1669 - [c79]Markus Leinonen, Marian Codreanu, Markku J. Juntti, Gerhard Kramer:
Rate-distortion lower bound for compressed sensing via conditional remote source coding. ITW 2016: 275-279 - [c78]Andrei S. Nedelcu, Gerhard Kramer:
Sensitivity of Information Rates of Matching Circuits for Antenna Arrays. WSA 2016: 1-6 - [i49]Ziv Goldfeld, Gerhard Kramer, Haim H. Permuter, Paul Cuff:
Strong Secrecy for Cooperative Broadcast Channels. CoRR abs/1601.01286 (2016) - [i48]Onur Günlü, Gerhard Kramer:
Privacy, Secrecy, and Storage with Noisy Identifiers. CoRR abs/1601.06756 (2016) - [i47]Matthias Hiller, Michael Pehl, Gerhard Kramer, Georg Sigl:
Algebraic Security Analysis of Key Generation with Physical Unclonable Functions. IACR Cryptol. ePrint Arch. 2016: 854 (2016) - 2015
- [c77]Onur Günlü, Gerhard Kramer, Maciej Skorski:
Privacy and secrecy with multiple measurements of physical and biometric identifiers. CNS 2015: 89-94 - [c76]Mansoor I. Yousefi, Gerhard Kramer, Frank R. Kschischang:
Upper bound on the capacity of the nonlinear Schrödinger channel. CWIT 2015: 22-26 - [c75]Stefan Dierks, Wolfgang Zirwas, Markus Jäger, Berthold Panzner, Gerhard Kramer:
MIMO and massive MIMO - Analysis for a local area scenario. EUSIPCO 2015: 2451-2455 - [c74]Ziv Goldfeld, Gerhard Kramer, Haim H. Permuter:
Cooperative broadcast channels with a secret message. ISIT 2015: 1342-1346 - [c73]Rana Ali Amjad, Gerhard Kramer:
Channel resolvability codes based on concatenation and sparse linear encoding. ISIT 2015: 2111-2115 - [c72]Andrew Thangaraj, Gerhard Kramer, Georg Bocherer:
Capacity upper bounds for discrete-time amplitude-constrained AWGN channels. ISIT 2015: 2321-2325 - [c71]Luca Barletta, Gerhard Kramer:
Lower bound on the capacity of continuous-time Wiener phase noise channels. ISIT 2015: 2326-2330 - [c70]Mohit Thakur, Gerhard Kramer:
Quasi-concavity for Gaussian multicast relay channels. ISIT 2015: 2867-2869 - [c69]Luca Barletta, Gerhard Kramer:
Upper bound on the capacity of discrete-time Wiener phase noise channels. ITW 2015: 1-5 - [c68]Ziv Goldfeld, Haim H. Permuter, Gerhard Kramer:
Broadcast channels with cooperation: Capacity and duality for the semi-deterministic case. ITW 2015: 1-5 - [c67]Gerhard Kramer:
Capacity of deterministic, half-duplex, line networks with two sources. ITW 2015: 1-2 - [c66]Gerhard Kramer, Mansoor I. Yousefi, Frank R. Kschischang:
Upper bound on the capacity of a cascade of nonlinear and noisy channels. ITW 2015: 1-4 - [c65]Onur Günlü, Onurcan Iscan, Gerhard Kramer:
Reliable secret key generation from physical unclonable functions under varying environmental conditions. WIFS 2015: 1-6 - [i46]Mansoor I. Yousefi, Gerhard Kramer, Frank R. Kschischang:
Upper Bound on the Capacity of the Single-User Nonlinear Schrödinger Channel. CoRR abs/1502.06455 (2015) - [i45]Hassan Ghozlan, Gerhard Kramer:
Models and Information Rates for Multiuser Optical Fiber Channels with Nonlinearity and Dispersion. CoRR abs/1503.03124 (2015) - [i44]Hassan Ghozlan, Gerhard Kramer:
Models and Information Rates for Wiener Phase Noise Channels. CoRR abs/1503.03130 (2015) - [i43]Luca Barletta, Gerhard Kramer:
Lower Bound on the Capacity of Continuous-Time Wiener Phase Noise Channels. CoRR abs/1503.03223 (2015) - [i42]Gerhard Kramer, Mansoor I. Yousefi, Frank R. Kschischang:
Upper Bound on the Capacity of a Cascade of Nonlinear and Noisy Channels. CoRR abs/1503.07652 (2015) - [i41]Ziv Goldfeld, Gerhard Kramer, Haim H. Permuter:
Broadcast Channels with Privacy Leakage Constraints. CoRR abs/1504.06136 (2015) - [i40]Mohit Thakur, Gerhard Kramer:
Quasi-Concavity for Gaussian Multicast Relay Channels. CoRR abs/1506.02703 (2015) - [i39]Shirin Saeedi Bidokhti, Gerhard Kramer:
Capacity Bounds for Diamond Networks with an Orthogonal Broadcast Channel. CoRR abs/1510.00994 (2015) - [i38]Andrew Thangaraj, Gerhard Kramer, Georg Bocherer:
Capacity Bounds for Discrete-Time, Amplitude-Constrained, Additive White Gaussian Noise Channels. CoRR abs/1511.08742 (2015) - 2014
- [j44]Gerhard Kramer:
Information Networks With In-Block Memory. IEEE Trans. Inf. Theory 60(4): 2105-2120 (2014) - [c64]Luca Barletta, Gerhard Kramer:
Signal-to-noise ratio penalties for continuous-time phase noise channels. CrownCom 2014: 232-235 - [c63]Jie Hou, Gerhard Kramer:
Effective secrecy: Reliability, confusion and stealth. ISIT 2014: 601-605 - [c62]Shirin Saeedi Bidokhti, Gerhard Kramer:
Capacity bounds for a class of diamond networks. ISIT 2014: 1196-1200 - [c61]Ziv Goldfeld, Haim H. Permuter, Gerhard Kramer:
The Ahlswede-Körner coordination problem with one-sided encoder cooperation. ISIT 2014: 1341-1345 - [c60]Hassan Ghozlan, Gerhard Kramer:
Phase modulation for discrete-time wiener phase noise channels with oversampling at high SNR. ISIT 2014: 1554-1557 - [c59]Luca Barletta, Gerhard Kramer:
On continuous-time white phase noise channels. ISIT 2014: 2426-2429 - [c58]Marwa El Hefnawy, Guido Dietl, Gerhard Kramer:
Spectral shaping for faster-than-Nyquist signaling. ISWCS 2014: 496-500 - [c57]Shirin Saeedi Bidokhti, Gerhard Kramer:
An application of a wringing lemma to the multiple access channel with cooperative encoders. IWCIT 2014: 1-4 - [c56]Marwa El Hefnawy, Gerhard Kramer:
Impact of spectrum sharing on the efficiency of Faster-Than-Nyquist signaling. WCNC 2014: 648-653 - [i37]Luca Barletta, Gerhard Kramer:
On Continuous-Time White Phase Noise Channels. CoRR abs/1401.6069 (2014) - [i36]Shirin Saeedi Bidokhti, Gerhard Kramer:
Capacity Bounds for a Class of Diamond Networks. CoRR abs/1401.6135 (2014) - [i35]Marwa El Hefnawy, Gerhard Kramer:
Impact of Spectrum Sharing on the Efficiency of Faster-Than-Nyquist Signaling. CoRR abs/1401.7262 (2014) - [i34]Hassan Ghozlan, Gerhard Kramer:
Phase Modulation for Discrete-time Wiener Phase Noise Channels with Oversampling at High SNR. CoRR abs/1405.2605 (2014) - [i33]Ziv Goldfeld, Haim H. Permuter, Gerhard Kramer:
Duality of a Source Coding Problem and the Semi-Deterministic Broadcast Channel with Rate-Limited Cooperation. CoRR abs/1405.7812 (2014) - [i32]Luca Barletta, Gerhard Kramer:
Upper Bound on the Capacity of Discrete-Time Wiener Phase Noise Channels. CoRR abs/1411.0390 (2014) - [i31]Mansoor I. Yousefi, Frank R. Kschischang, Gerhard Kramer:
Kolmogorov-Zakharov Model for Optical Fiber Communication. CoRR abs/1411.6550 (2014) - 2013
- [j43]Roy Timo, Alex J. Grant, Gerhard Kramer:
Lossy Broadcasting With Complementary Side Information. IEEE Trans. Inf. Theory 59(1): 104-131 (2013) - [j42]Tobias Koch, Gerhard Kramer:
On Noncoherent Fading Relay Channels at High Signal-to-Noise Ratio. IEEE Trans. Inf. Theory 59(4): 2221-2241 (2013) - [c55]Jie Hou, Gerhard Kramer:
Informational divergence approximations to product distributions. CWIT 2013: 76-81 - [c54]Hassan Ghozlan, Gerhard Kramer:
Multi-sample receivers increase information rates for Wiener phase noise channels. GLOBECOM 2013: 1897-1902 - [c53]Stefan Dierks, Gerhard Kramer, Wolfgang Zirwas:
Feasibility conditions of interference alignment via two orthogonal subcarriers. ISIT 2013: 579-583 - [c52]Mohit Thakur, Gerhard Kramer:
Relay positioning for multicast relay networks. ISIT 2013: 1954-1958 - [c51]Hassan Ghozlan, Gerhard Kramer:
On Wiener phase noise channels at high Signal-to-Noise Ratio. ISIT 2013: 2279-2283 - [i30]Hassan Ghozlan, Gerhard Kramer:
On Wiener Phase Noise Channels at High Signal-to-Noise Ratio. CoRR abs/1301.6923 (2013) - [i29]Jie Hou, Gerhard Kramer:
Informational Divergence Approximations to Product Distributions. CoRR abs/1302.0215 (2013) - [i28]Stefan Dierks, Gerhard Kramer, Wolfgang Zirwas:
Feasibility Conditions of Interference Alignment via Two Orthogonal Subcarriers. CoRR abs/1303.5321 (2013) - [i27]Hassan Ghozlan, Gerhard Kramer:
Multi-sample Receivers Increase Information Rates for Wiener Phase Noise Channels. CoRR abs/1303.6880 (2013) - [i26]Jie Hou, Gerhard Kramer:
Short Message Noisy Network Coding. CoRR abs/1304.1692 (2013) - [i25]Jie Hou, Gerhard Kramer:
Effective Secrecy: Reliability, Confusion and Stealth. CoRR abs/1311.1411 (2013) - 2012
- [j41]Gerhard Kramer, Seyed Mohammadsadegh Tabatabaei Yazdi:
Network Coding for Line Networks with Broadcast Channels. Entropy 14(10): 1813-1828 (2012) - [j40]Johnny Karout, Gerhard Kramer, Frank R. Kschischang, Erik Agrell:
A Two-Dimensional Signal Space for Intensity-Modulated Channels. IEEE Commun. Lett. 16(9): 1361-1364 (2012) - [j39]Gottfried Lechner, Troels Pedersen, Gerhard Kramer:
Analysis and Design of Binary Message Passing Decoders. IEEE Trans. Commun. 60(3): 601-607 (2012) - [j38]Georg Zeitler, Andrew C. Singer, Gerhard Kramer:
Low-Precision A/D Conversion for Maximum Information Rate in Channels with Memory. IEEE Trans. Commun. 60(9): 2511-2521 (2012) - [j37]Georg Zeitler, Gerhard Kramer, Andrew C. Singer:
Bayesian Parameter Estimation Using Single-Bit Dithered Quantization. IEEE Trans. Signal Process. 60(6): 2713-2726 (2012) - [c50]Rajan Narasimha, Georg Zeitler, Naresh R. Shanbhag, Andrew C. Singer, Gerhard Kramer:
System-driven metrics for the design and adaptation of analog to digital converters. ICASSP 2012: 5281-5284 - [c49]Silas L. Fong, Raymond W. Yeung, Gerhard Kramer:
Cut-set bound for generalized networks. ISIT 2012: 1034-1038 - [c48]Jie Hou, Gerhard Kramer:
Short message noisy network coding for multiple sources. ISIT 2012: 1677-1681 - [c47]Gerhard Kramer:
Networks with in-block memory. ITW 2012: 342-346 - [i24]Johnny Karout, Gerhard Kramer, Frank R. Kschischang, Erik Agrell:
A Two-Dimensional Signal Space for Intensity-Modulated Channels. CoRR abs/1203.1528 (2012) - [i23]Gerhard Kramer:
Networks with in-Block Memory. CoRR abs/1206.5389 (2012) - 2011
- [j36]Lalitha Sankar, Gerhard Kramer, Narayan B. Mandayam:
Dedicated-Relay vs. User Cooperation in Time-Duplexed Multiaccess Networks. J. Commun. 6(4): 330-339 (2011) - [j35]Yingbin Liang, Gerhard Kramer, H. Vincent Poor:
On the Equivalence of Two Achievable Regions for the Broadcast Channel. IEEE Trans. Inf. Theory 57(1): 95-100 (2011) - [j34]Xiaohu Shang, Biao Chen, Gerhard Kramer, H. Vincent Poor:
Noisy-Interference Sum-Rate Capacity of Parallel Gaussian Interference Channels. IEEE Trans. Inf. Theory 57(1): 210-226 (2011) - [j33]S. M. Sadegh Tabatabaei Yazdi, Serap A. Savari, Gerhard Kramer:
Network Coding in Node-Constrained Line and Star Networks. IEEE Trans. Inf. Theory 57(7): 4452-4468 (2011) - [j32]Bernhard Goebel, René-Jean Essiambre, Gerhard Kramer, Peter J. Winzer, Norbert Hanik:
Calculation of Mutual Information for Partially Coherent Gaussian Channels With Applications to Fiber Optics. IEEE Trans. Inf. Theory 57(9): 5720-5736 (2011) - [j31]Phil Whiting, Gerhard Kramer, Carl J. Nuzman, Alexei E. Ashikhmin, Adriaan J. de Lind van Wijngaarden, Miroslav Zivkovic:
Analysis of Inverse Crosstalk Channel Estimation Using SNR Feedback. IEEE Trans. Signal Process. 59(3): 1102-1115 (2011) - [c46]Hassan Ghozlan, Gerhard Kramer:
Interference focusing for simplified optical fiber models with dispersion. ISIT 2011: 376-379 - [c45]Georg Zeitler, Andrew C. Singer, Gerhard Kramer:
Low-precision A/d conversion for maximum information rate in channels with memory. ISIT 2011: 2602-2606 - [c44]Roy Timo, Alex J. Grant, Gerhard Kramer:
Rate-distortion functions for source coding with complementary side information. ISIT 2011: 2934-2938 - [c43]Gerhard Kramer, Jie Hou:
On message lengths for noisy network coding. ITW 2011: 430-431 - [i22]Gerhard Kramer, Jie Hou:
Short-Message Quantize-Forward Network Coding. CoRR abs/1102.4930 (2011) - [i21]Hassan Ghozlan, Gerhard Kramer:
Interference Focusing for Simplified Optical Fiber Models with Dispersion. CoRR abs/1107.2100 (2011) - [i20]Tobias Koch, Gerhard Kramer:
On Noncoherent Fading Relay Channels at High SNR. CoRR abs/1108.2187 (2011) - 2010
- [j30]René-Jean Essiambre, Gerard J. Foschini, Gerhard Kramer, Peter J. Winzer:
Capacity limits of information transmission in optically-routed fiber networks. Bell Labs Tech. J. 14(4): 149-162 (2010) - [j29]S. M. Sadegh Tabatabaei Yazdi, Serap A. Savari, Gerhard Kramer, Kelli Carlson, Farzad Farnoud:
On the multimessage capacity region for undirected ring networks. IEEE Trans. Inf. Theory 56(4): 1930-1947 (2010) - [j28]Xiaohu Shang, Biao Chen, Gerhard Kramer, H. Vincent Poor:
Capacity regions and sum-rate capacities of vector Gaussian interference channels. IEEE Trans. Inf. Theory 56(10): 5030-5044 (2010) - [c42]René-Jean Essiambre, Gerhard Kramer, Gerard J. Foschini, Peter J. Winzer:
Optical fiber and information theory. CISS 2010: 1-5 - [c41]Hassan Ghozlan, Gerhard Kramer:
Interference focusing for mitigating cross-phase modulation in a simplified optical fiber model. ISIT 2010: 2033-2037 - [c40]Tobias Lutz, Gerhard Kramer, Christoph Hausl:
Capacity for half-duplex line networks with two sources. ISIT 2010: 2393-2397 - [i19]Hassan Ghozlan, Gerhard Kramer:
Interference Focusing for Mitigating Cross-Phase Modulation in Optical Fiber. CoRR abs/1003.2226 (2010) - [i18]Bernhard Goebel, René-Jean Essiambre, Gerhard Kramer, Peter J. Winzer, Norbert Hanik:
Polar Decomposition of Mutual Information and Applications to Partially Coherent Channels. CoRR abs/1003.6091 (2010) - [i17]Gottfried Lechner, Troels Pedersen, Gerhard Kramer:
Analysis and Design of Binary Message-Passing Decoders. CoRR abs/1004.4020 (2010) - [i16]Tobias Lutz, Gerhard Kramer, Christoph Hausl:
Capacity for Half-Duplex Line Networks with Two Sources. CoRR abs/1006.0871 (2010) - [i15]Roy Timo, Alex J. Grant, Gerhard Kramer:
Lossy Broadcasting in Two-Way Relay Networks with Common Reconstructions. CoRR abs/1011.4725 (2010)
2000 – 2009
- 2009
- [j27]Emina Soljanin, Piyush Gupta, Gerhard Kramer:
Network coding for efficient network multicast. Bell Labs Tech. J. 14(3): 157-166 (2009) - [j26]Yingbin Liang, Gerhard Kramer, H. Vincent Poor, Shlomo Shamai (Shitz):
Compound Wiretap Channels. EURASIP J. Wirel. Commun. Netw. 2009 (2009) - [j25]Xiaohu Shang, Gerhard Kramer, Biao Chen:
A New Outer Bound and the Noisy-Interference Sum-Rate Capacity for Gaussian Interference Channels. IEEE Trans. Inf. Theory 55(2): 689-699 (2009) - [c39]Yahya Mohasseb, Hassan Ghozlan, Gerhard Kramer, Hesham El Gamal:
The MIMO Wireless Switch: Relaying can increase the multiplexing gain. ISIT 2009: 1448-1452 - [c38]Xiaohu Shang, Biao Chen, Gerhard Kramer, H. Vincent Poor:
Noisy-interference sum-rate capacity of parallel Gaussian interference channels. ISIT 2009: 2597-2601 - [c37]Gerhard Kramer, Chandra Nair:
Comments on "broadcast channels with arbitrarily correlated sources". ISIT 2009: 2777-2779 - [c36]Michèle A. Wigger, Gerhard Kramer:
Three-user MIMO MACs with cooperation. ITW 2009: 221-225 - [c35]Gerhard Kramer:
Coding for cooperation and relaying. WiOpt 2009: 1-2 - [i14]Gerhard Kramer, Chandra Nair:
Comments on "Broadcast Channels with Arbitrarily Correlated Sources". CoRR abs/0901.0220 (2009) - [i13]Hassan Ghozlan, Yahya Mohasseb, Hesham El Gamal, Gerhard Kramer:
The MIMO Wireless Switch: Relaying Can Increase the Multiplexing Gain. CoRR abs/0901.2588 (2009) - [i12]Gerhard Kramer, Yingbin Liang, Shlomo Shamai:
Outer Bounds on the Admissible Source Region for Broadcast Channels with Dependent Sources. CoRR abs/0902.2370 (2009) - [i11]Xiaohu Shang, Biao Chen, Gerhard Kramer, H. Vincent Poor:
Noisy-interference Sum-rate Capacity of Parallel Gaussian Interference Channels. CoRR abs/0903.0595 (2009) - [i10]Xiaohu Shang, Biao Chen, Gerhard Kramer, H. Vincent Poor:
Capacity Regions and Sum-Rate Capacities of Vector Gaussian Interference Channels. CoRR abs/0907.0472 (2009) - [i9]Gerhard Kramer:
Pipelined Encoding for Deterministic and Noisy Relay Networks. CoRR abs/0911.3676 (2009) - [i8]Xiaohu Shang, Biao Chen, Gerhard Kramer, H. Vincent Poor:
MIMO Z-Interference Channels: Capacity Under Strong and Noisy Interference. CoRR abs/0911.4530 (2009) - 2008
- [j24]Miroslav Zivkovic, Gerhard Kramer, Carl J. Nuzman, Carl Posthuma, James Wheeler, Phil Whiting, Adriaan J. de Lind van Wijngaarden:
Performance of digital subscriber line spectrum optimization algorithms. Bell Labs Tech. J. 13(1): 129-146 (2008) - [j23]Phil Whiting, Alexei E. Ashikhmin, Sem C. Borst, Jean Jennen, Gerhard Kramer, Adriaan J. de Lind van Wijngaarden, Miroslav Zivkovic:
Performance results for digital subscriber line precoders. Bell Labs Tech. J. 13(1): 147-161 (2008) - [j22]Osvaldo Simeone, Oren Somekh, Gerhard Kramer, H. Vincent Poor, Shlomo Shamai:
Throughput of Cellular Systems with Conferencing Mobiles and Cooperative Base Stations. EURASIP J. Wirel. Commun. Netw. 2008 (2008) - [j21]Ivana Maric, Andrea J. Goldsmith, Gerhard Kramer, Shlomo Shamai:
On the capacity of interference channels with one cooperating transmitter. Eur. Trans. Telecommun. 19(4): 405-420 (2008) - [j20]Amichai Sanderovich, Shlomo Shamai, Yossef Steinberg, Gerhard Kramer:
Communication Via Decentralized Processing. IEEE Trans. Inf. Theory 54(7): 3008-3023 (2008) - [c34]Osvaldo Simeone, Oren Somekh, Gerhard Kramer, H. Vincent Poor, Shlomo Shamai:
Three-user Gaussian multiple access channel with partially cooperating encoders. ACSCC 2008: 85-89 - [c33]Xiaohu Shang, Biao Chen, Gerhard Kramer, H. Vincent Poor:
On the capacity of MIMO interference channels. Allerton 2008: 700-707 - [c32]Osvaldo Simeone, Oren Somekh, Gerhard Kramer, H. Vincent Poor, Shlomo Shamai:
Uplink sum-rate analysis of a multicell system with feedback. Allerton 2008: 1030-1036 - [c31]Yingbin Liang, Gerhard Kramer, H. Vincent Poor:
Equivalence of two inner bounds on the capacity region of the broadcast channel. Allerton 2008: 1417-1421 - [c30]Xiaohu Shang, Gerhard Kramer, Biao Chen:
Outer bound and noisy-interference sum-rate capacity for symmetric Gaussian interference channels. CISS 2008: 385-389 - [c29]Gerhard Kramer, S. M. Sadegh Tabatabaei Yazdi, Serap A. Savari:
Network coding on line networks with broadcast. CISS 2008: 781-784 - [c28]Xiaohu Shang, Biao Chen, Gerhard Kramer:
On Sum-Rate Capacity of Parallel Gaussian Symmetric Interference Channels. GLOBECOM 2008: 916-920 - [c27]Phil Whiting, Alexei E. Ashikhmin, Gerhard Kramer, Carl J. Nuzman, Adriaan J. de Lind van Wijngaarden, Miroslav Zivkovic, Michaël Peeters, Mamoun Guenach, Jochen Maes, Jan Verlinden:
DSL Crosstalk Coefficient Acquisition Using SNR Feedback. GLOBECOM 2008: 3428-3432 - [c26]Xiaohu Shang, Gerhard Kramer, Biao Chen:
New outer bounds on the capacity region of Gaussian interference channels. ISIT 2008: 245-249 - [c25]S. M. Sadegh Tabatabaei Yazdi, Serap A. Savari, Gerhard Kramer:
Network coding in star networks. ISIT 2008: 325-329 - [c24]Wei Kang, Gerhard Kramer:
Broadcast channel with degraded source random variables and receiver side information. ISIT 2008: 1711-1715 - [c23]Roy Timo, Alex J. Grant, Terence Chan, Gerhard Kramer:
Source coding for a simple network with receiver side information. ISIT 2008: 2307-2311 - [c22]Yingbin Liang, Gerhard Kramer, Shlomo Shamai:
Capacity outer bounds for broadcast channels. ITW 2008: 2-4 - [c21]Yingbin Liang, Gerhard Kramer, H. Vincent Poor, Shlomo Shamai:
Recent results on compound wire-tap channels. PIMRC 2008: 1-5 - [i7]Xiaohu Shang, Gerhard Kramer, Biao Chen:
New Outer Bounds on the Capacity Region of Gaussian Interference Channels. CoRR abs/0801.2185 (2008) - [i6]Roy Timo, Alexander J. Grant, Terence Chan, Gerhard Kramer:
Source Coding for a Simple Network with Receiver Side Information. CoRR abs/0805.4053 (2008) - [i5]Xiaohu Shang, Biao Chen, Gerhard Kramer, H. Vincent Poor:
On the Capacity of MIMO Interference Channels. CoRR abs/0807.1543 (2008) - [i4]Lalitha Sankar, Gerhard Kramer, Narayan B. Mandayam:
Relay vs. User Cooperation in Time-Duplexed Multiaccess Networks. CoRR abs/0809.2226 (2008) - 2007
- [j19]Gerhard Kramer:
Topics in Multi-User Information Theory. Found. Trends Commun. Inf. Theory 4(4/5): 265-444 (2007) - [j18]Gerhard Kramer, Serap A. Savari:
Communicating Probability Distributions. IEEE Trans. Inf. Theory 53(2): 518-525 (2007) - [j17]Gerhard Kramer, Randall Berry, Abbas El Gamal, Hesham El Gamal, Massimo Franceschetti, Michael Gastpar, J. Nicholas Laneman:
Introduction to the Special Issue on Models, Theory, and Codes for Relaying and Cooperation in Communication Networks [Guest Editorial]. IEEE Trans. Inf. Theory 53(10): 3297-3301 (2007) - [j16]Yingbin Liang, Gerhard Kramer:
Rate Regions for Relay Broadcast Channels. IEEE Trans. Inf. Theory 53(10): 3517-3535 (2007) - [j15]Ivana Maric, Roy D. Yates, Gerhard Kramer:
Capacity of Interference Channels With Partial Transmitter Cooperation. IEEE Trans. Inf. Theory 53(10): 3536-3548 (2007) - [j14]Lalitha Sankar, Gerhard Kramer, Narayan B. Mandayam:
Offset Encoding for Multiple-Access Relay Channels. IEEE Trans. Inf. Theory 53(10): 3814-3821 (2007) - [c20]S. M. Sadegh Tabatabaei Yazdi, Serap A. Savari, Kelli Carlson, Gerhard Kramer:
The Capacity Region of a Collection of Multicast Sessions in an Undirected Ring Network. ICPP Workshops 2007: 40 - [c19]Gottfried Lechner, Troels Pedersen, Gerhard Kramer:
EXIT Chart Analysis of Binary Message-Passing Decoders. ISIT 2007: 871-875 - [c18]S. M. Sadegh Tabatabaei Yazdi, Serap A. Savari, Farzad Farnoud, Gerhard Kramer:
A Multimessage Capacity Region for Undirected Ring Networks. ISIT 2007: 1091-1095 - [c17]Ivana Maric, Andrea Goldsmith, Gerhard Kramer, Shlomo Shamai:
On the Capacity of Interference Channels with a Partially-Cognitive Transmitter. ISIT 2007: 2156-2160 - [i3]Ivana Maric, Andrea J. Goldsmith, Gerhard Kramer, Shlomo Shamai:
On the Capacity of Interference Channels with One Cooperating Transmitter. CoRR abs/0710.3375 (2007) - [i2]Xiaohu Shang, Gerhard Kramer, Biao Chen:
A New Outer Bound and the Noisy-Interference Sum-Rate Capacity for Gaussian Interference Channels. CoRR abs/0712.1987 (2007) - 2006
- [j13]Gerhard Kramer, Ivana Maric, Roy D. Yates:
Cooperative Communications. Found. Trends Netw. 1(3/4) (2006) - [j12]Gerhard Kramer, Serap A. Savari:
Edge-Cut Bounds on Network Coding Rates. J. Netw. Syst. Manag. 14(1): 49-67 (2006) - [j11]Niranjan Ratnakar, Gerhard Kramer:
The multicast capacity of deterministic relay networks with no interference. IEEE Trans. Inf. Theory 52(6): 2425-2432 (2006) - [c16]Yingbin Liang, Gerhard Kramer:
Capacity Theorems for Cooperative Relay Broadcast Channels. CISS 2006: 1719-1724 - [c15]Serap A. Savari, Gerhard Kramer:
The Multimessage Unicast Capacity Region for Bidirectional Ring Networks. ISIT 2006: 763-767 - [c14]Gerhard Kramer, Michael Gastpar:
Dependence Balance and the Gaussian Multiaccess Channel with Feedback. ITW 2006: 198-202 - [i1]Yingbin Liang, Gerhard Kramer:
Rate Regions for Relay Broadcast Channels. CoRR abs/cs/0606074 (2006) - 2005
- [j10]Gerhard Kramer, Michael Gastpar, Piyush Gupta:
Cooperative Strategies and Capacity Theorems for Relay Network. IEEE Trans. Inf. Theory 51(9): 3037-3063 (2005) - [c13]Ivana Maric, Roy D. Yates, Gerhard Kramer:
The discrete memoryless compound multiple access channel with conferencing encoders. ISIT 2005: 407-410 - [c12]Lalitha Sankaranarayanan, Gerhard Kramer, Narayan B. Mandayam:
Cooperation vs. hierarchy: an information-theoretic comparison. ISIT 2005: 411-415 - [c11]Tobias Koch, Gerhard Kramer:
On the pre-log of Gaussian fading relay channels. ISIT 2005: 951-955 - [c10]Amichai Sanderovich, Shlomo Shamai, Yossef Steinberg, Gerhard Kramer:
Communication via decentralized processing. ISIT 2005: 1201-1205 - [c9]Gerhard Kramer, Serap A. Savari:
Progressive d-separating edge set bounds on network coding rates. ISIT 2005: 1588-1592 - [c8]Niranjan Ratnakar, Gerhard Kramer:
On the separation of channel and network coding in aref networks. ISIT 2005: 1716-1719 - 2004
- [j9]Stephan ten Brink, Gerhard Kramer, Alexei E. Ashikhmin:
Design of low-density parity-check codes for modulation and detection. IEEE Trans. Commun. 52(4): 670-678 (2004) - [j8]Gerhard Kramer:
Outer bounds on the capacity of Gaussian interference channels. IEEE Trans. Inf. Theory 50(3): 581-586 (2004) - [j7]Gerhard Kramer:
Correction to "Feedback Strategies for White Gaussian Interference Networks, " and a Capacity Theorem for Gaussian Interference Channels With Feedback. IEEE Trans. Inf. Theory 50(6): 1373-1374 (2004) - [j6]Alexei E. Ashikhmin, Gerhard Kramer, Stephan ten Brink:
Extrinsic information transfer functions: model and erasure channel properties. IEEE Trans. Inf. Theory 50(11): 2657-2673 (2004) - [c7]Gerhard Kramer, Serap A. Savari:
Cut sets and information flow in networks of two-way channels. ISIT 2004: 33 - [c6]J. Nicholas Laneman, Gerhard Kramer:
Window decoding for the multiaccess channel with generalized feedback. ISIT 2004: 281 - [c5]Lalitha Sankaranarayanan, Gerhard Kramer, Narayan B. Mandayam:
Hierarchical sensor networks: capacity bounds and cooperative strategies using the multiple-access relay channel model. SECON 2004: 191-199 - [e1]Piyush Gupta, Gerhard Kramer, Adriaan J. de Lind van Wijngaarden:
Advances in Network Information Theory, Proceedings of a DIMACS Workshop, Piscataway, New Jersey, USA, March 17-19, 2003. DIMACS Series in Discrete Mathematics and Theoretical Computer Science 66, DIMACS/AMS 2004, ISBN 978-0-8218-3467-1 [contents] - 2003
- [j5]Gerhard Kramer:
Capacity results for the discrete memoryless network. IEEE Trans. Inf. Theory 49(1): 4-21 (2003) - [j4]Raman Venkataramani, Gerhard Kramer, Vivek K. Goyal:
Multiple description coding with many channels. IEEE Trans. Inf. Theory 49(9): 2106-2114 (2003) - [j3]Stephan ten Brink, Gerhard Kramer:
Design of repeat-accumulate codes for iterative detection and decoding. IEEE Trans. Signal Process. 51(11): 2764-2772 (2003) - [c4]Sriram Vishwanath, Gerhard Kramer, Shlomo Shamai (Shitz), Syed Ali Jafar, Andrea J. Goldsmith:
Capacity bounds for Gaussian vector broadcast channels. Multiantenna Channels: Capacity, Coding and Signal Processing 2003: 107-122 - [c3]Gerhard Kramer, Serap A. Savari:
On networks of two-way channels. Algebraic Coding Theory and Information Theory 2003: 133-144 - 2002
- [j2]Gerhard Kramer:
Feedback strategies for white Gaussian interference networks. IEEE Trans. Inf. Theory 48(6): 1423-1438 (2002) - 2001
- [c2]Raman Venkataramani, Gerhard Kramer, Vivek K. Goyal:
Successive Refinement on Trees: A Special Case of a New MD Coding Region. Data Compression Conference 2001: 293-301
1990 – 1999
- 1999
- [j1]Gerhard Kramer:
Feedback strategies for a class of two-user multiple-access channels. IEEE Trans. Inf. Theory 45(6): 2054-2059 (1999) - 1998
- [b1]Gerhard Kramer:
Directed information for channels with feedback. ETH Zurich, Zürich, Switzerland, Hartung-Gorre 1998, ISBN 978-3-89649-379-8, pp. 1-135 - 1995
- [c1]Carlo Harpes, Gerhard Kramer, James L. Massey:
A Generalization of Linear Cryptanalysis and the Applicability of Matsui's Piling-Up Lemma. EUROCRYPT 1995: 24-38
Coauthor Index
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