


default search action
8. CrownCom 2013: Washington, DC, USA
- Danijela Cabric, Xiuzhen Cheng:

8th International Conference on Cognitive Radio Oriented Wireless Networks, CROWNCOM 2013, Washington, DC, USA, July 8-10, 2013. ICST / IEEE Computer Society 2013, ISBN 978-1-4799-2120-1
Spectrum Sharing
- Tanim Taher, Kenneth J. Zdunek, Dennis Roberson:

Statistical modeling framework of live spectrum observation data for opportunistic spectrum sharing. 1-6 - Martin B. H. Weiss, Mohammed Altamimi, Mark McHenry:

Enforcement and spectrum sharing: A case study of the 1695-1710 MHz band. 7-12 - Alireza Babaei, William H. Tranter, Tamal Bose:

A practical precoding approach for radar/communications spectrum sharing. 13-18 - Alessandro Raschellà, Jordi Pérez-Romero, Oriol Sallent, Anna Umbert:

On the use of POMDP for spectrum selection in cognitive Radio networks. 19-24
Dynamic Spectrum Access
- Tao Jing, Xiaoshuang Xing, Wei Cheng, Yan Huo, Taieb Znati:

Cooperative spectrum prediction in multi-PU multi-SU cognitive radio networks. 25-30 - Anm Badruddoza, Vinod Namboodiri, Murtuza Jadliwala:

On the energy efficiency of dynamic spectrum access under dynamic channel conditions. 31-36 - Ana Galindo-Serrano, Berna Sayraç, Sana Ben Jemaa, Janne Riihijärvi, Petri Mähönen:

Harvesting MDT data: Radio environment maps for coverage analysis in cellular networks. 37-42 - Janis Werner, Jun Wang, Aki Hakkarainen

, Mikko Valkama
, Danijela Cabric:
Primary user DoA and RSS estimation in cognitive Radio networks using sectorized antennas. 43-48 - Akram Baharlouei, Bijan Jabbari:

Dynamic subchannel and power allocation using Nash Bargaining game for cognitive radio networks with imperfect PU activity sensing. 49-54
Spectrum Sensing - I
- Ahmet Hasim Gokceoglu

, Sener Dikmese
, Mikko Valkama
, Markku Renfors
:
Enhanced energy detection for multi-band spectrum sensing under RF imperfections. 55-60 - Sener Dikmese

, Jiunn Lin Wong, Ahmet Hasim Gokceoglu
, Elena Guzzon, Mikko Valkama
, Markku Renfors
:
Reducing computational complexity of eigenvalue based spectrum sensing for cognitive radio. 61-67 - Ying Dai, Jie Wu:

Whether and when to share: Spectrum sensing as an evolutionary game. 68-73 - Ying Dai, Jie Wu:

Sense in order: Channel selection for sensing in cognitive radio networks. 74-79
Spectrum Sensing - II
- Tadilo Endeshaw Bogale, Luc Vandendorpe:

Linearly combined signal energy based spectrum sensing algorithm for cognitive radio networks with noise variance uncertainty. 80-86 - Eric Rebeiz, Ali Shahed hagh ghadam, Mikko Valkama

, Danijela Cabric:
Suppressing RF front-end nonlinearities in wideband spectrum sensing. 87-92 - Waleed Ejaz, Mahin K. Atiq

, Hyung Seok Kim, Ghalib A. Shah:
Optimal entropy-based spectrum sensing for cognitive radio networks under severe path loss conditions. 93-98 - He Li, Xinxin Feng, Xiaoying Gan, Zhongren Cao:

Joint spectrum sensing and transmission strategy for energy-efficient cognitive radio networks. 99-104
Cognitive Radio Performance Analysis
- Kun Xu, Ming-xue Liao, Xiao-Xin He, Changwen Zheng, Hai-yu Ren:

Analysis on the probability of electromagnetic compatibility in cognitive radio. 105-110 - Yihenew Dagne Beyene

, Kalle Ruttik, Riku Jäntti:
Effect of secondary transmission on primary pilot carriers in overlay cognitive radios. 111-116 - S. M. Shahrear Tanzil, Md. Jahangir Hossain:

Cross-layer performance analysis for cognitive radio network with a random transmission protocol in presence of sensing errors. 117-122 - Yanpeng Yang, Lei Shi, Jens Zander:

On the capacity of Wi-Fi System in TV white space with aggregate interference constraint. 123-128 - Alex Fridman, Jeffrey Wildman, Steven Weber:

Observations on sum user rate for cellular downlink. 129-134
Spectrum Market and Security
- Wei Zhou, Tao Jing, Wei Cheng, Tao Chen, Yan Huo:

Combinatorial auction based channel allocation in cognitive radio networks. 135-140 - Rishabh Dudheria, Wade Trappe, Naftaly H. Minsky:

Law governed peer-to-peer secondary spectrum marketplaces. 141-147 - Andrey Garnaev, Wade Trappe, Chun-Ta Kung:

Optimizing scanning strategies: Selecting scanning bandwidth in adversarial RF environments. 148-153 - Dan Shan, Kai Zeng, Paul C. Richardson, Weidong Xiang:

Detecting multi-channel wireless microphone user emulation attacks in white space with noise. 154-159 - Liu Cui, Taieb Znati, Martin B. H. Weiss:

Coopetition spectrum trading - Creating endogenous spectrum holes. 160-165
WiFiUS Workshop Program
- Henna Paaso, Aarne Mämmelä

, Damiano Patron, Kapil R. Dandekar
:
Modified MUSIC algorithm for doa estimation using CRLH leaky-wave antennas. 166-171 - Aki Hakkarainen

, Janis Werner, Kapil R. Dandekar
, Mikko Valkama
:
RF-aware widely-linear beamforming and null-steering in cognitive Radio transmitters. 172-177 - Ahmed R. Elsherif, Zhi Ding, Xin Liu, Jyri Hämäläinen, Risto Wichman:

Inference-driven dynamic access scheme for interference management in heterogeneous networks. 178-183 - Luca Zappaterra, Hyeong-Ah Choi, Kamran Sayrafian-Pour, Jari H. Iinatti:

On the delay and data rate performance of throughput-efficient multi-channel access algorithms in cognitive radio networks. 184-189 - Alexis Alfredo Dowhuszko, Jyri Hämäläinen, Ahmed R. Elsherif, Zhi Ding:

Performance of transmit beamforming for interference mitigation with random codebooks. 190-195 - Lai-Huei Wang, Shuvra S. Bhattacharyya, Aida Vosoughi, Joseph R. Cavallaro, Markku J. Juntti, Jani Boutellier

, Olli Silvén, Mikko Valkama
:
Dataflow modeling and design for cognitive radio networks. 196-201 - Xianfu Chen

, Tao Chen, Wei Cheng, Honggang Zhang:
Reciprocity inspired learning for opportunistic spectrum access in cognitive radio networks. 202-207
Hardware Prototypes and Physical Layer Innovations
- Iyappan Subbiah, Moritz Schrey, Arun Ashok, Gabor Varga, Andreas Achtzehn, Marina Petrova, Stefan Heinen:

Design of a TV white space converter prototype towards cognitive radio for WLAN routers. 208-213 - Dennis Wieruch, Thomas Wirth, Oliver Braz, Alfons Dußmann, Markus Mederle, Marc Müller:

Cognitive repeaters for flexible mobile data traffic offloading. 214-219 - O. Abel Gouba, Yves Louët:

A joint approach for PAPR reduction and predistortion by adding signal in cognitive radio. 220-225 - Fotis Foukalas, Tamer Khattab, H. Vincent Poor:

Adaptive modulation in multi-user cognitive radio networks over fading channels. 226-230
Cognitive Protocols
- Ahmed El Shafie, Amr El-Keyi, Tamer Khattab, Mohammed Nafie:

Transmit and receive cooperative cognition: Protocol design and stability analysis. 231-237 - Jacek Kibilda, Justin Tallon, Keith E. Nolan, L. A. Daxilva:

Whitespace networks relying on dynamic control channels. 238-243 - André Puschmann, Mohamed Abd rabou Kalil, Andreas Mitschele-Thiel:

A component-based approach for constructing flexible link-layer protocols. 244-249 - Paolo Di Francesco, Séamas McGettrick, Uchenna K. Anyanwu, J. Colman O'Sullivan, Allen B. MacKenzie, Luiz A. DaSilva:

A split architecture for random access MAC for SDR platforms. 250-255 - Deming Pang, Quan Liu, Gang Hu, Yingwen Chen, Ming Xu:

Client-centric heterogeneous access in cognitive WLANs. 256-262
Inference Management and Link Adaptation
- Erqing Zhang, Sixing Yin, Liang Yin, Shufang Li:

Energy-efficient link adaptation for cognitive radios with heterogeneous QoS requirements. 263-268 - Álvaro Gonzalo-Ayuso, Jesús Pérez:

Dynamic rate adaptation in cognitive radio considering time-dependent channel access models. 269-274 - Shree Krishna Sharma, Symeon Chatzinotas

, Björn E. Ottersten:
Transmit beamforming for spectral coexistence of satellite and terrestrial networks. 275-281 - Byungjin Cho, Konstantinos Koufos, Riku Jäntti:

Interference control in cognitive wireless networks by tuning the carrier sensing threshold. 282-287 - Daniel Ali, Jung-Min Park, Ashwin E. Amanna:

A feature partitioning approach to casebased reasoning in cognitive radios. 288-293

manage site settings
To protect your privacy, all features that rely on external API calls from your browser are turned off by default. You need to opt-in for them to become active. All settings here will be stored as cookies with your web browser. For more information see our F.A.Q.


Google
Google Scholar
Semantic Scholar
Internet Archive Scholar
CiteSeerX
ORCID













