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1. Cognitive Equalization for HF Channels

   N. Teku, T. Bose (January 2018, International Telemetering Conference)
2. A bordered HF^- algebra for the torus

   https://doi.org/10.4310/JSG.250403021401  

   Lipshitz, Robert; Ozsváth, Peter; Thurston, Dylan P (January 2025, Journal of Symplectic Geometry)

   Auroux, Denis; Biran, Paul; Donaldson, Simon; Mrowka, Tomasz (Ed.)

   We describe a weighted A-infinity algebra associated to the torus. We give a combinatorial construction of this algebra, and an abstract characterization. The abstract characterization also gives a relationship between our algebra and the wrapped Fukaya category of the torus. These algebras underpin the (unspecialized) bordered Heegaard Floer homology for three-manifolds with torus boundary, which will be constructed in forthcoming work. 

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3. Dissociation energy of the HCN⋯HF dimer

   https://doi.org/10.1016/j.cplett.2020.137382  

   Sexton, Thomas More; Van Benschoten, William Zeller; Tschumper, Gregory S. (June 2020, Chemical Physics Letters)
4. Fully cognitive transceiver for High Frequency (HF) applications

   https://doi.org/10.1117/12.2515407  

   Teku, Noel H.; Asadi, Hamed; Bose, Tamal; Marefat, Michael (April 2019, SPIE)

   Ionospheric conditions are variable in nature and can cause destructive interference to transmissions made in the High Frequency (HF) band, which ranges from 3-30 MHz. This poses a problem as the HF band is a critical fre- quency range for various applications (i.e. emergency, military). To manage these dynamic conditions, intelligent techniques should be implemented at the transmitter and receiver to properly maintain reliable communications. In this paper, we present work deriving components of a cognitive HF transceiver with agents called cognitive engines (CEs) operating at the transmitter and receiver. At the transmitter, cognition is employed to determine the combination of modulation and coding techniques that maximize throughput. At the receiver, cognition is implemented to derive the best parameters for equalization (i.e. tap length, step size, filter type, etc.) Results are presented showing that the individual components are able to satisfy their objectives. A discussion is also provided surveying recent research efforts pertaining to the development of cognitive methods for the Automatic Link Establishment (ALE) protocol, a common networking methodology for HF stations. 

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5. Bistatic Observations With SuperDARN HF Radars: First Results

   https://doi.org/10.1029/2020RS007121  

   Shepherd, S. G.; Sterne, K. T.; Thomas, E. G.; Ruohoniemi, J. M.; Baker, J. B.; Parris, R. T.; Pedersen, T. R.; Holmes, J. M. (August 2020, Radio Science)