2010 - IEEE Fellow For contributions to iterative demodulation and decoding in wireless communication
The scientist’s investigation covers issues in Algorithm, Decoding methods, Turbo code, Code division multiple access and Electronic engineering. His Error detection and correction, Iterative method, Constant-weight code and Forward error correction study in the realm of Algorithm connects with subjects such as Block. His Decoding methods study combines topics from a wide range of disciplines, such as Multiuser detection, Communication channel, Theoretical computer science and Chip.
His Turbo code study incorporates themes from Turbo equalizer, Block code, Concatenated error correction code and Convolutional code. Christian Schlegel combines subjects such as Metric, Forward error control, Projection, Statistics and Radio receiver with his study of Code division multiple access. His Electronic engineering study combines topics in areas such as Transmitter and Efficient energy use.
Christian Schlegel mainly investigates Electronic engineering, Algorithm, Decoding methods, Communication channel and Turbo code. In his research on the topic of Electronic engineering, Interference is strongly related with Interference. His work carried out in the field of Algorithm brings together such families of science as Demodulation, Code division multiple access and Theoretical computer science.
His research combines Error detection and correction and Decoding methods. His biological study spans a wide range of topics, including Wireless and Computer network. He interconnects Turbo equalizer, Serial concatenated convolutional codes, Concatenated error correction code, Computer engineering and Convolutional code in the investigation of issues within Turbo code.
His scientific interests lie mostly in Communication channel, Electronic engineering, Computer network, Wireless and Turbo code. His research in Communication channel intersects with topics in Demodulation, Real-time computing, Estimator and Random access. His study in Electronic engineering is interdisciplinary in nature, drawing from both Transmitter, Iterative method, Interference and Asynchronous communication.
His studies deal with areas such as Throughput and Spectral efficiency as well as Computer network. His Turbo code research is classified as research in Algorithm. His work in the fields of Algorithm, such as Decoding methods, Trellis, Tree and Shannon–Fano coding, overlaps with other areas such as Symbol.
His main research concerns Electronic engineering, Communication channel, Decoding methods, Turbo code and Demodulation. Christian Schlegel has included themes like Iterative method and Gaussian noise in his Electronic engineering study. His Communication channel research is multidisciplinary, incorporating elements of Acoustics, Hydrophone, Sampling and Kalman filter.
His Decoding methods research is multidisciplinary, relying on both Aloha, Collision, Single antenna interference cancellation and Network packet. Turbo code is a subfield of Algorithm that Christian Schlegel explores. His studies in Algorithm integrate themes in fields like Interference and Random access.
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Vertical nanowire light-emitting diode
Rolf Könenkamp;Robert Campbell Word;C. Schlegel.
Applied Physics Letters (2004)
Iterative multiuser detection for CDMA with FEC: near-single-user performance
M.C. Reed;C.B. Schlegel;P.D. Alexander;J.A. Asenstorfer.
IEEE Transactions on Communications (1998)
Photoneutron cross sections for unstable neutron-rich oxygen isotopes
A. Leistenschneider;T. Aumann;K. Boretzky;D. Cortina.
Physical Review Letters (2001)
Trellis and turbo coding
Christian Schlegel;Lance Perez.
Iterative multiuser interference reduction: turbo CDMA
P.D. Alexander;M.C. Reed;J.A. Asenstorfer;C.B. Schlegel.
IEEE Transactions on Communications (1999)
Error control coding in low-power wireless sensor networks: when is ECC energy-efficient?
Sheryl L. Howard;Christian Schlegel;Kris Iniewski.
Eurasip Journal on Wireless Communications and Networking (2006)
Direct Observation of Quantum Coherence in Single-Molecule Magnets
C. Schlegel;J. van Slageren;J. van Slageren;M. Manoli;Euan Brechin.
Physical Review Letters (2008)
Gd-Based Single-Ion Magnets with Tunable Magnetic Anisotropy: Molecular Design of Spin Qubits
M. J. Martínez-Pérez;M. J. Martínez-Pérez;S. Cardona-Serra;C. Schlegel;F. Moro.
Physical Review Letters (2012)
Multiuser projection receivers
C. Schlegel;S. Roy;P.D. Alexander;Zeng-Jun Xiang.
IEEE Journal on Selected Areas in Communications (1996)
Pilot embedding for joint channel estimation and data detection in MIMO communication systems
Haidong Zhu;B. Farhang-Boroujeny;C. Schlegel.
IEEE Communications Letters (2003)
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