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2020 – today
- 2024
[j32]Holger Boche
, Volker Pohl, H. Vincent Poor:
Characterization of the Complexity of Computing the Minimum Mean Square Error of Causal Prediction. IEEE Trans. Inf. Theory 70(9): 6627-6638 (2024)- [c51]Holger Boche, Volker Pohl, H. Vincent Poor:
On the Complexity of Computing the Minimum Mean Square Error of Causal Prediction. ACC 2024: 3903-3908 - 2023
- [c50]Holger Boche, Volker Pohl, H. Vincent Poor:
The Wiener Theory of Causal Linear Prediction Is Not Effective. CDC 2023: 8229-8234 - 2022
- [j31]Holger Boche, Volker Pohl:
On Non-Detectability of Non-Computability and the Degree of Non-Computability of Solutions of Circuit and Wave Equations on Digital Computers. IEEE Trans. Inf. Theory 68(8): 5561-5578 (2022) - [j30]Alihan Kaplan, Volker Pohl, Dae Gwan Lee:
Data Transmission Over Linear Time-Varying Channels. IEEE Trans. Signal Process. 70: 3357-3370 (2022) - [i10]Holger Boche, Volker Pohl:
On non-detectability of non-computability and the degree of non-computability of solutions of circuit and wave equations on digital computers. CoRR abs/2205.12626 (2022) - 2021
- [j29]Holger Boche, Volker Pohl:
Complexity Blowup in Simulating Analog Linear Time-Invariant Systems on Digital Computers. IEEE Trans. Signal Process. 69: 5005-5020 (2021) - [c49]Holger Boche, Volker Pohl:
Complexity Blowup if Continuous-Time LTI Systems are Implemented on Digital Hardware. CDC 2021: 6509-6514 - [c48]Alihan Kaplan, Volker Pohl:
Message Transmission Over Rapidly Time-Varying Channels. ICASSP 2021: 5080-5084 - 2020
- [j28]Holger Boche, Volker Pohl:
On approximations for functions in the space of uniformly convergent Fourier series. J. Approx. Theory 249 (2020) - [j27]Holger Boche, Volker Pohl:
Calculating the spectral factorization and outer functions by sampling-based approximations - Fundamental limitations. J. Approx. Theory 257: 105450 (2020) - [j26]Holger Boche, Volker Pohl:
Turing Meets Circuit Theory: Not Every Continuous-Time LTI System Can be Simulated on a Digital Computer. IEEE Trans. Circuits Syst. 67-I(12): 5051-5064 (2020) - [j25]Holger Boche, Volker Pohl:
On the Algorithmic Solvability of Spectral Factorization and Applications. IEEE Trans. Inf. Theory 66(7): 4574-4592 (2020) - [c47]Holger Boche, Volker Pohl:
Can every analog system be simulated on a digital computer? ICASSP 2020: 1783-1787 - [c46]Holger Boche, Volker Pohl:
Computing Hilbert Transform and Spectral Factorization for Signal Spaces of Smooth Functions. ICASSP 2020: 5300-5304 - [c45]Alihan Kaplan, Dae Gwan Lee, Volker Pohl:
Message Transmission ThroughUnderspread Time-Varying Linear Channels. ICASSP 2020: 5805-5809 - [c44]Alihan Kaplan, Volker Pohl, Dae Gwan Lee:
A Message Transmission Scheme for Linear Time-Varying Multipath Channels. SPAWC 2020: 1-5
2010 – 2019
- 2019
- [j24]Holger Boche, Volker Pohl:
Calculating the Hilbert Transform on Spaces With Energy Concentration: Convergence and Divergence Regions. IEEE Trans. Inf. Theory 65(1): 586-603 (2019) - [j23]Dae Gwan Lee, Götz E. Pfander, Volker Pohl:
Sampling and Reconstruction of Multiple-Input Multiple-Output Channels. IEEE Trans. Signal Process. 67(4): 961-976 (2019) - [c43]Holger Boche, Volker Pohl:
The Divergence of all Sampling-based Methods for Calculating the Spectral Factorization. CDC 2019: 7714-7720 - [c42]Holger Boche, Volker Pohl:
Energy Blowup of Sampling-based Approximation Methods. ICASSP 2019: 5082-5086 - [c41]Holger Boche, Volker Pohl:
On the Algorithmic Solvability of the Spectral Factorization and the Calculation of the Wiener Filter on Turing Machines. ISIT 2019: 2459-2463 - [c40]Alihan Kaplan, Volker Pohl, Holger Boche:
A new family of low coherence finite Gabor frames and applications in compressive sampling. SPAWC 2019: 1-5 - 2018
- [c39]Dae Gwan Lee, Götz E. Pfander, Volker Pohl, Weiqi Zhou:
Identification of Multiple-Input Multiple-Output Channels Under Linear Side Constraints. ICASSP 2018: 3889-3893 - [c38]Alihan Kaplan, Volker Pohl, Dae Gwan Lee:
On Compressive Sensing of Sparse Covariance Matrices Using Deterministic Sensing Matrices. ICASSP 2018: 4019-4023 - [c37]Dae Gwan Lee, Alihan Kaplan, Volker Pohl:
Permissible Support Patterns for Identifying the Spreading Function of Time-Varying Channels. ICASSP 2018: 4384-4388 - [c36]Holger Boche, Volker Pohl:
On the Computability of System Approximations Under Causality Constraints. ICASSP 2018: 4559-4563 - [c35]Holger Boche, Volker Pohl:
On the Approximability of the Hilbert Transform. ISIT 2018: 2530-2534 - [c34]Alihan Kaplan, Volker Pohl, Dae Gwan Lee:
The Statistical Restricted Isometry Property For Gabor Systems. SSP 2018: 45-49 - 2017
- [c33]Holger Boche, Volker Pohl:
Peak value blowup of approximations of the Hilbert transform of signals with finite energy. ACC 2017: 5738-5743 - [c32]Holger Boche, Volker Pohl:
Characterization of the stability range of the Hilbert transform with applications to spectral factorization. ISIT 2017: 2368-2372 - 2016
- [j22]Holger Boche, Volker Pohl:
On the strong divergence of Hilbert transform approximations and a problem of Ul'yanov. J. Approx. Theory 204: 34-60 (2016) - [c31]Holger Boche, Volker Pohl:
The divergence behavior of adaptive signal processing algorithms with finite search horizon. ICASSP 2016: 4930-4934 - 2015
- [c30]Çagkan Yapar, Volker Pohl, Holger Boche:
Fast compressive phase retrieval from Fourier measurements. ICASSP 2015: 3267-3271 - [i9]Çagkan Yapar, Volker Pohl, Holger Boche:
Compressive phase retrieval of sparse bandlimited signals. CoRR abs/1509.08105 (2015) - 2014
- [c29]Volker Pohl, Çagkan Yapar, Holger Boche, Fanny Yang:
A phase retrieval method for signals in modulation-invariant spaces. ICASSP 2014: 46-50 - [i8]Holger Boche, Volker Pohl:
System Approximations and Generalized Measurements in Modern Sampling Theory. CoRR abs/1410.5872 (2014) - [i7]Çagkan Yapar, Volker Pohl, Holger Boche:
Fast Compressive Phase Retrieval from Fourier Measurements. CoRR abs/1410.7351 (2014) - 2013
- [c28]Volker Pohl, Ezra Tampubolon, Holger Boche:
Sampling and reconstruction in sparse atomic spaces. ICASSP 2013: 6053-6057 - [i6]Fanny Yang, Volker Pohl, Holger Boche:
Phase Retrieval via Structured Modulations in Paley-Wiener Spaces. CoRR abs/1302.4258 (2013) - [i5]Volker Pohl, Fanny Yang, Holger Boche:
Phaseless Signal Recovery in Infinite Dimensional Spaces using Structured Modulations. CoRR abs/1305.2789 (2013) - [i4]Volker Pohl, Fanny Yang, Holger Boche:
Phase retrieval from low rate samples. CoRR abs/1311.7045 (2013) - 2012
- [j21]Volker Pohl, Holger Boche:
U-Invariant Sampling and Reconstruction in Atomic Spaces With Multiple Generators. IEEE Trans. Signal Process. 60(7): 3506-3519 (2012) - [c27]Volker Pohl, Fanny Yang, Holger Boche:
Causal reconstruction kernels for consistent signal recovery. EUSIPCO 2012: 1174-1178 - [c26]Volker Pohl, Holger Boche:
U-invariant sampling and stable reconstruction in atomic spaces. ICASSP 2012: 3317-3320 - 2011
- [j20]Volker Pohl:
On Causal Estimation From Bandlimited Stationary Sequences. IEEE Trans. Inf. Theory 57(8): 5436-5443 (2011) - [j19]Tomer Michaeli, Volker Pohl, Yonina C. Eldar:
U-Invariant Sampling: Extrapolation and Causal Interpolation From Generalized Samples. IEEE Trans. Signal Process. 59(5): 2085-2100 (2011) - [c25]Tomer Michaeli, Yonina C. Eldar, Volker Pohl:
Causal signal recovery from U-invariant samples. ICASSP 2011: 3900-3903 - [c24]Volker Pohl, Yonina C. Eldar:
Signal recovery in shift-invariant spaces from partial frequency data. ICASSP 2011: 4200-4203 - [c23]Volker Pohl, Fiky Yosep Suratman, Abdelhak M. Zoubir, Holger Boche:
Spectrum sensing for cognitive radio architectures based on sub-Nyquist sampling schemes. WSA 2011: 1-8 - 2010
- [b1]Volker Pohl, Holger Boche:
Advanced Topics in System and Signal Theory - A Mathematical Approach. Foundations in Signal Processing, Communications and Networking 4, Springer 2010, ISBN 978-3-642-03638-5, pp. I-VIII, 1-241 - [j18]Yonina C. Eldar, Volker Pohl:
Recovering signals from lowpass data. IEEE Trans. Signal Process. 58(5): 2636-2646 (2010)
2000 – 2009
- 2009
- [j17]Sander Wahls, Holger Boche, Volker Pohl:
Zero-forcing precoding for frequency selective MIMO channels with H∞ criterion and causality constraint. Signal Process. 89(9): 1754-1761 (2009) - [j16]Holger Boche, Volker Pohl:
Rate of convergence in approximating the spectral factor of regular stochastic sequences. IEEE Trans. Inf. Theory 55(12): 5674-5681 (2009) - [i3]Yonina C. Eldar, Volker Pohl:
Recovering Signals from Lowpass Data. CoRR abs/0907.3576 (2009) - 2008
- [j15]Holger Boche, Volker Pohl:
On the Boundedness of the Spectral Factorization Mapping on Decomposing Banach Algebras. SIAM J. Control. Optim. 47(3): 1415-1427 (2008) - [j14]Holger Boche, Volker Pohl:
The Stability and Continuity Behavior of the Spectral Factorization in the Wiener Algebra With Applications in Wiener Filtering. IEEE Trans. Circuits Syst. I Regul. Pap. 55-I(10): 3063-3076 (2008) - [j13]Holger Boche, Volker Pohl:
On the Calculation of the Hilbert Transform From Interpolated Data. IEEE Trans. Inf. Theory 54(5): 2358-2366 (2008) - [j12]Holger Boche, Volker Pohl:
Robustness of the Inner-Outer Factorization and of the Spectral Factorization for FIR Data. IEEE Trans. Signal Process. 56(1): 274-283 (2008) - [j11]Holger Boche, Volker Pohl:
Boundedness Behavior of the Spectral Factorization for Polynomial Data in the Wiener Algebra. IEEE Trans. Signal Process. 56(7-2): 3100-3107 (2008) - [i2]Sander Wahls, Holger Boche, Volker Pohl:
Optimum Zero-Forcing Precoder for Single-Carrier MIMO Systems. CoRR abs/0803.0428 (2008) - 2007
- [j10]Holger Boche, Volker Pohl:
Signal representation and approximation-fundamental limits. Eur. Trans. Telecommun. 18(5): 445-456 (2007) - [j9]Holger Boche, Volker Pohl:
Behaviour of the spectral factorization for continuous spectral densities. Signal Process. 87(5): 1078-1088 (2007) - [j8]Holger Boche, Volker Pohl:
On the behavior of causal projections with applications. Signal Process. 87(12): 3108-3130 (2007) - [j7]Holger Boche, Volker Pohl:
Spectral Factorization for Polynomial Spectral Densities - Impact of Dimension. IEEE Trans. Inf. Theory 53(11): 4236-4241 (2007) - [c22]Holger Boche, Volker Pohl:
On the boundedness behavior of the spectral factorization in the Wiener algebra for FIR data. EUSIPCO 2007: 1716-1720 - [c21]Holger Boche, Volker Pohl:
There is No Free Lunch with Causal Approximations. ICASSP (3) 2007: 765-768 - [c20]Holger Boche, Volker Pohl:
Approximation and Convergence Behavior of Spectral Factorization Methods. ISIT 2007: 1131-1135 - 2006
- [j6]Holger Boche, Volker Pohl:
On the behavior of disk algebra bases with applications. Signal Process. 86(12): 3915-3922 (2006) - [j5]Holger Boche, Volker Pohl:
Structural Properties of the Wiener Filter - Stability, Smoothness Properties, and FIR Approximation Behavior. IEEE Trans. Inf. Theory 52(9): 4272-4282 (2006) - [c19]Holger Boche, Volker Pohl:
Characterization of the behavior of outer functions with applications to spectral factorization and system design. ACC 2006: 1-6 - [c18]Holger Boche, Volker Pohl:
Necessary and Sufficient Condition for the Continuity of all Causal Projections with Applications. CDC 2006: 5333-5338 - [c17]Holger Boche, Volker Pohl:
MIMO-ISI channel equalization - Which price we have to pay for causality. EUSIPCO 2006: 1-5 - [c16]Holger Boche, Volker Pohl:
There exists no always convergent algorithm for the calculation of spectral factorization, Wiener filter, and Hilbert transform. ISIT 2006: 118-122 - [c15]Holger Boche, Volker Pohl:
MIMO - ISI channels: inner-outer factorization and applications to equalization. IWCMC 2006: 1393-1398 - 2005
- [j4]Volker Pohl, Volker Jungnickel, Clemens Von Helmolt:
The algebraic structure of frequency-selective MIMO channels. IEEE Trans. Signal Process. 53(7): 2498-2512 (2005) - [c14]Holger Boche, Volker Pohl:
Continuity of the Outer Factorization and Mapping Properties with Applications. CDC/ECC 2005: 548-553 - [c13]Holger Boche, Volker Pohl:
Spectral factorization, whitening- and estimation filter - stability, smoothness properties and FIR approximation behavior. ISIT 2005: 1701-1705 - [c12]Holger Boche, Volker Pohl:
General Structure of the Causal and Stable Inverses of MIMO Systems with ISI. PIMRC 2005: 102-106 - [i1]Holger Boche, Volker Pohl:
Spectral Factorization, Whitening- and Estimation Filter -- Stability, Smoothness Properties and FIR Approximation Behavior. CoRR abs/cs/0508018 (2005) - 2004
- [c11]Volker Pohl, Volker Jungnickel, Clemens Von Helmolt:
Optimal length of the training and data phase in continuous flat fading MIMO channels. ICC 2004: 3153-3157 - [c10]Volker Jungnickel, Yun-Shen Chang, Volker Pohl:
Performance of MIMO Rake receivers in WCDMA systems. WCNC 2004: 2075-2080 - 2003
- [j3]Volker Jungnickel, Volker Pohl, Clemens Von Helmolt:
Capacity of MIMO systems with closely spaced antennas. IEEE Commun. Lett. 7(8): 361-363 (2003) - [j2]Volker Jungnickel, Andreas Forck, Thomas Haustein, Udo Krüger, Volker Pohl, Clemens Von Helmolt:
Electronic tracking for wireless infrared communications. IEEE Trans. Wirel. Commun. 2(5): 989-999 (2003) - [c9]Volker Pohl, Phuc H. Nguyen, Volker Jungnickel, Clemens Von Helmolt:
How often channel estimation is needed in MIMO systems. GLOBECOM 2003: 814-818 - [c8]Volker Pohl, Phuc H. Nguyen, Volker Jungnickel, Clemens Von Helmolt:
Limits of the achievable symbol rate in flat fading MIMO systems. PIMRC 2003: 2548-2552 - 2002
- [j1]Volker Jungnickel, Volker Pohl, Stephan Nönnig, Clemens Von Helmolt:
A physical model of the wireless infrared communication channel. IEEE J. Sel. Areas Commun. 20(3): 631-640 (2002) - [c7]Volker Pohl, Volker Jungnickel, Eduard A. Jorswieck, Clemens Von Helmolt:
Zero forcing equalizing filter for MIMO channels with intersymbol interference. PIMRC 2002: 1037-1041 - [c6]Thomas Haustein, Clemens Von Helmolt, Eduard A. Jorswieck, Volker Jungnickel, Volker Pohl:
Performance of MIMO systems with channel inversion. VTC Spring 2002: 35-39 - [c5]Eduard A. Jorswieck, Volker Jungnickel, Thomas Haustein, Volker Pohl, Clemens Von Helmolt:
On the performance of signal detection algorithms in flat-fading and frequency-selective MIMO channels. VTC Spring 2002: 40-44 - [c4]Volker Pohl, Volker Jungnickel, Thomas Haustein, Clemens Von Helmolt:
Antenna spacing in MIMO indoor channels. VTC Spring 2002: 749-753 - 2001
- [c3]Volker Jungnickel, Thomas Haustein, Eduard A. Jorswieck, Volker Pohl, Clemens Von Helmolt:
Performance of a MIMO system with overlay pilots. GLOBECOM 2001: 594-598 - [c2]Thomas Haustein, Eduard A. Jorswieck, Volker Jungnickel, Udo Krueger, Volker Pohl, Clemens Von Helmolt:
Bit error rates for a MIMO system in Rayleigh and Rician channels. VTC Fall 2001: 1984-1987 - 2000
- [c1]Volker Pohl, Volker Jungnickel, Clemens Von Helmolt:
A channel model for wireless infrared communication. PIMRC 2000: 297-303
Coauthor Index
[j32] [c51] [c50] [j31] [i10] [j29] [c49] [j28] [j27] [j26] [j25] [c47] [c46] [j24] [c43] [c42] [c41] [c40] [c36] [c35] [c33] [c32] [j22] [c31] [c30] [i9] [c29] [i8] [i7] [c28] [i6] [i5] [i4] [j21] [c27] [c26] [c23] [b1] [j17] [j16] [j15] [j14] [j13] [j12] [j11] [i2] [j10] [j9] [j8] [j7] [c22] [c21] [c20] [j6] [j5] [c19] [c18] [c17] [c16] [c15] [c14] [c13] [c12] [i1]
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last updated on 2024-09-23 00:30 CEST by the dblp team
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