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Jochen Rust
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2020 – today
- 2023
- [c51]Nils Hülsmeier, Moritz Bärthel, Jochen Rust, Steffen Paul:
Hybrid SORN Hardware Accelerator for Support Vector Machines. CoNGA 2023: 77-87 - [c50]Moritz Bärthel, Yuexing Chen, Nils Hülsmeier, Jochen Rust, Steffen Paul:
Fused Three-Input SORN Arithmetic. CoNGA 2023: 101-113 - [c49]Lucas Bublitz, Jochen Rust, Ulf Kulau:
Let's go below: Potential of Undervolting on Low-Power FPGAs. ENSsys@SenSys 2023: 51-57 - 2022
- [c48]Moritz Bärthel, Nils Hülsmeier, Jochen Rust, Steffen Paul:
On the Implementation of Edge Detection Algorithms with SORN Arithmetic. CoNGA 2022: 1-13 - [c47]Ulf Kulau, Jochen Rust, Urs-Vito Albrecht:
Demo: BCG Measurement by differential Sensing in Real-Time. DCOSS 2022: 75-78 - [c46]Ulf Kulau, Jochen Rust, Daniel Szafranski, Martin Drobczyk, Urs-Vito Albrecht:
A Differential BCG Sensor System for Long Term Health Monitoring Experiment on the ISS. DCOSS 2022: 85-92 - [c45]Ulf Kulau, Christoph Richter, Jochen Rust:
Adaptive J-Wave Detection Architecture for Online BCG-Complex Recognition on FPGA. ICECS 2022 2022: 1-4 - [c44]Urs-Vito Albrecht, Martin Drobczyk, Christian Strowik, André Lübken, Jan Beringer, Jochen Rust, Ulf Kulau:
Beat to BEAT - Non-Invasive Investigation of Cardiac Function on the International Space Station. ICIMTH 2022: 95-99 - [c43]Moritz Bärthel, Jochen Rust, John Gustafson, Steffen Paul:
Improving the Precision of SORN Arithmetic by Introducing Fused Operations. ISCAS 2022: 258-262 - [c42]Nils Hülsmeier, Moritz Bärthel, Ludwig Karsthof, Jochen Rust, Steffen Paul:
Hybrid SORN Implementation of k-Nearest Neighbor Algorithm on FPGA. NEWCAS 2022: 163-167 - 2021
- [j5]Moritz Bärthel, Simon Knobbe, Jochen Rust, Steffen Paul:
Hardware Implementation of a Latency-Reduced Sphere Decoder With SORN Preprocessing. IEEE Access 9: 91387-91401 (2021) - [c41]Martin Drobczyk, André Lübken, Christian Strowik, Ulf Kulau, Jochen Rust, Jan Beringer, Urs-Vito Albrecht:
Wireless Compose-2: A wireless communication network with a Ballistocardiography Smart-Shirt experiment in the ISS Columbus module. WiSEE 2021: 103-108 - 2020
- [j4]Jochen Rust, Moritz Bärthel, Pascal Seidel, Steffen Paul:
A Hardware Generator for SORN Arithmetic. IEEE Trans. Comput. Aided Des. Integr. Circuits Syst. 39(12): 4842-4853 (2020) - [c40]Ludwig Karsthof, Pascal Seidel, Raik Milautzki, Jochen Rust, Steffen Paul:
Hardware Architecture of a Decentralized Massive MIMO Equalizer based on Gauss-Seidel Detection. ACSSC 2020: 1037-1040 - [c39]Moritz Bärthel, Jochen Rust, Steffen Paul:
Combining Fixed-Point and SORN Arithmetic in a MIMO BPSK-Symbol Detection Architecture. ASAP 2020: 181-184 - [c38]Nils Hülsmeier, Moritz Bärthel, Jochen Rust, Steffen Paul:
SORN-based Cascade Support Vector Machine. EUSIPCO 2020: 1507-1511 - [c37]Moritz Bärthel, Jochen Rust, Steffen Paul:
Application-Specific Analysis of Different SORN Datatypes for Unum Type-2-Based Arithmetic. ISCAS 2020: 1-5 - [c36]Simon Knobbe, Moritz Bärthel, Steffen Paul, Jochen Rust:
Complexity Reduction for Sphere Decoding using Unum-Type-II-Based SORN-Arithmetic. MOCAST 2020: 1-4 - [c35]Jochen Rust, Mingjie Hao, Ludwig Karsthof, Steffen Paul, Elias Hashem, Ulf Kulau:
A High-Performance Data Processing Unit for Next Generation Satellite Transceivers. WiSEE 2020: 35-38
2010 – 2019
- 2019
- [j3]Daniel Gregorek, Jochen Rust, Alberto García Ortiz:
DRACON: A Dedicated Hardware Infrastructure for Scalable Run-Time Management on Many-Core Systems. IEEE Access 7: 121931-121948 (2019) - [c34]Daniel Gregorek, Dominik Günzel, Jochen Rust, Steffen Paul, Domenico Velotto, James Imber, Björn Tings, Anja Frost:
FPGA Prototyping of a High-Resolution TerraSAR-X Image Processor for Iceberg Detection. ACSSC 2019: 1832-1835 - [c33]Pascal Seidel, Steffen Paul, Jochen Rust:
Decentralized Massive MIMO Uplink Signal Estimation by Binary Multistep Synthesis. ACSSC 2019: 1967-1971 - [c32]Pascal Seidel, Steffen Paul, Jochen Rust:
Low-Complexity 2-Coordinates Descent for Near-Optimal MMSE Soft-Output Massive MIMO Uplink Data Detection. EUSIPCO 2019: 1-5 - [c31]Moritz Bärthel, Pascal Seidel, Jochen Rust, Steffen Paul:
SORN Arithmetic for MIMO Symbol Detection - Exploration of the Type-2 Unum Format. NEWCAS 2019: 1-4 - [c30]Mingjie Hao, Ludwig Karsthof, Jochen Rust, Steffen Paul:
Enhanced Symbol Synchronization for Multi-User High Reliable Dynamic Industrial Wireless Communication. NEWCAS 2019: 1-4 - [c29]Ludwig Karsthof, Mingjie Hao, Jochen Rust, Steffen Paul:
Ultra Low Latency Implementation of Robust Channel Estimation and Equalization for Industrial Wireless Communication Systems. NEWCAS 2019: 1-4 - [c28]Jochen Rust, Pascal Seidel, Steffen Paul:
Adaptive Bivariate Function Generation based on Chebyshev-Polynomials. NEWCAS 2019: 1-4 - [c27]Mingjie Hao, Ardalan Najafi, Alberto García Ortiz, Ludwig Karsthof, Steffen Paul, Jochen Rust:
Reliability of an Industrial Wireless Communication System using Approximate Units. PATMOS 2019: 87-90 - [c26]Jochen Rust, Simon Knobbe, Steffen Paul:
On Blockchain-Based Dynamic Resource Allocation for Concurrent Industrial Wireless Premises Networks. WiMob 2019: 161-166 - [c25]Pascal Seidel, Daniel Gregorek, Steffen Paul, Jochen Rust:
Efficient Initialization of Iterative Linear Massive MIMO Uplink Detectors by Binary Jacobi Synthesis. WSA 2019: 48-52 - [c24]Daniel Gregorek, Pascal Seidel, Steffen Paul, Jochen Rust:
Parallel Data Reduction Method for an Industrial Massive MIMO Detector using "Tall Skinny QR" Decomposition. WSA 2019: 144-147 - 2018
- [c23]Moritz Bärthel, Jochen Rust, Steffen Paul:
Hardware Implementation of Basic Arithmetics and Elementary Functions for Unum Computing. ACSSC 2018: 125-129 - [c22]Mingjie Hao, Ludwig Karsthof, Jochen Rust, Johannes Demel, Carsten Bockelmann, Armin Dekorsy, Ahmad Al Houry, Fabian Mackenthun, Steffen Paul:
FPGA-based Baseband Solution for High Performance Industrial Wireless Communication. DSP 2018: 1-5 - [c21]Pascal Seidel, Benjamin Knoop, Sebastian Schmale, Daniel Gregorek, Steffen Paul, Jochen Rust:
Random Subsampling based Signal Detection for Spatial Correlated Massive MIMO Channels. ISCAS 2018: 1-5 - 2017
- [j2]Jochen Rust, Nils Heidmann, Steffen Paul:
Approximate computing of two-variable numeric functions using multiplier-less gradients. Microprocess. Microsystems 48: 48-55 (2017) - [j1]Jochen Rust, Pascal Seidel, Benjamin Knoop, Steffen Paul:
Hardware-Efficient QR-Decomposition Using Bivariate Numeric Function Approximation. IEEE Trans. Circuits Syst. I Regul. Pap. 64-I(12): 3150-3159 (2017) - [c20]Jochen Rust, Steffen Paul:
Exploiting special-purpose function approximation for hardware-efficient QR-decomposition. DATE 2017: 1378-1383 - 2016
- [c19]Konstantin Tscherkaschin, Benjamin Knoop, Jochen Rust, Steffen Paul:
Design of a multi-core hardware architecture for consensus-based MIMO detection algorithms. ACSSC 2016: 877-881 - [c18]Jochen Rust, Moritz Bärthel, Steffen Paul:
On high-accuracy direct digital frequency synthesis using linear function approximation. EUSIPCO 2016: 672-676 - [c17]Sebastian Schmale, Jochen Rust, Nils Hülsmeier, Heiner Lange, Benjamin Knoop, Steffen Paul:
High throughput architecture for inpainting-based recovery of correlated neural signals. EUSIPCO 2016: 1728-1732 - [c16]Benjamin Knoop, Jochen Rust, Sebastian Schmale, Dagmar Peters-Drolshagen, Steffen Paul:
Rapid digital architecture design of orthogonal matching pursuit. EUSIPCO 2016: 1857-1861 - [c15]Jochen Rust, Benjamin Knoop, Steffen Paul:
High-performance bivariate numeric function approximation for hardware-efficient QR-decomposition. ICECS 2016: 257-260 - [c14]Sebastian Schmale, Hendra Kesuma, Heiner Lange, Jochen Rust, Benjamin Knoop, Dagmar Peters-Drolshagen, Steffen Paul:
Hardware-accelerated reconstruction of compressed neural signals based on inpainting. MIXDES 2016: 399-404 - [c13]Ludwig Karsthof, Mingjie Hao, Jochen Rust, Dimitri Block, Uwe Meier, Steffen Paul:
Dynamically reconfigurable real-time hardware architecture for channel utilisation analysis in industrial wireless communication. NORCAS 2016: 1-6 - [c12]Jochen Rust, Steffen Paul:
Bivariate function approximation with encoded gradients. NORCAS 2016: 1-6 - 2015
- [c11]Jochen Rust, Frank Ludwig, Steffen Paul:
QR-decomposition architecture based on two-variable numeric function approximation. DATE 2015: 892-895 - [c10]Jochen Rust, Steffen Paul:
Design method for multiplier-less two-variable numeric function approximation. DATE 2015: 948-953 - [c9]Jochen Rust, Nils Heidmann, Steffen Paul:
Two-variable numeric function approximation using least-squares-based regression. NORCAS 2015: 1-4 - 2013
- [c8]Jochen Rust, Frank Ludwig, Steffen Paul:
Low complexity QR-decomposition architecture using the logarithmic number system. DATE 2013: 97-102 - 2012
- [c7]Jochen Rust, Till Wiegand, Steffen Paul:
Design and implementation of alow complexity NCO based CFO compensation unit. EUSIPCO 2012: 116-120 - [c6]Jochen Rust, Steffen Paul:
A Direct Digital Frequency Synthesizer based on automatic nonuniform piecewise function generation. EUSIPCO 2012: 230-234 - [c5]Jochen Rust, Steffen Paul:
Design and implementation of a neurocomputing ASIP for environmental monitoring in WSN. ICECS 2012: 129-132 - [c4]Till Wiegand, Jochen Rust, Steffen Paul:
Reconfigurable architecture of a hybrid synchronisation algorithm for LTE. PIMRC 2012: 2291-2296 - 2011
- [c3]Jochen Rust, Christof Osewold, Steffen Paul:
Implementation of a Low Power Low Complexity ASIP for various Sphere Decoding Algorithms. EW 2011 - [c2]Jochen Rust, Xinwei Wang, Rainer Laur, Steffen Paul:
A High Performance Neurocomputing Algorithm for Prediction Tasks in Wireless Sensor Networks. NTMS 2011: 1-5 - 2010
- [c1]Christoph Jäschke, Carsten Schmitt, Ulla Herter, Tobias Wich, Jochen Rust:
Strukturelle Verifikation mittels parser-gesteuerter Netzlisten-Traversierung. MBMV 2010: 227-236
Coauthor Index
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