Parties d'ouvrages collectifs (8)
  1. 1. Van der Vorst, T., Van Eeckhaute, M., Benlarbi-Delaï, A., Sarrazin, J. S. J., Quitin, F., Horlin, F., & De Doncker, P. (2019). Application of polynomial chaos expansions for uncertainty estimation in angle-of-arrival based localization. In Uncertainty modeling for engineering applications. Springer.
  2. 2. Dricot, J.-M., Rinaudo, R., Ferrari, G. G. F., Van Roy, S., De Doncker, P., & Nonclercq, A. (2013). QoS and routing performance evaluation for IEEE 802.15.6 body sensor networks using accurate physical layer. In I. M. M. El Emary & S. Ramakrishnan (Eds.), Wireless sensor networks: theory and application.
  3. 3. Oestges, C., Lienard, M., Molina-Garcia-Pardo, J., Degli-Esposti, V., Joseph, W., Tanghe, E., Quitin, F., De Doncker, P., Narandzic, M., Czink, N., Haneda, K., Poutanen, J., & Liu, L. (2012). Radio channel modelling for 4G networks. In COST Action 2100 – Pervasive mobile & ambient wireless communications. Springer.
  4. 4. Hao, Y., Klemm, M., Fort, A., Kovacs, I., Pedersen, G., Eggers, P., De Doncker, P., & Hall, P. (2012). Body centric UWB communications. In Antennas and propagation for body-centric wireless communications (2nd Ed.). Artech House.
  5. 5. Dricot, J.-M., Bontempi, G., & De Doncker, P. (2009). Static and dynamic localization techniques. In G. G. F. Ferrari (Ed.), Sensor networks: where theory meets practice.
  6. 6. Dricot, J.-M., Ferrari, G. G. F., & De Doncker, P. (2009). Cross-layering between physical layer and routing in wireless ad-hoc networks. In Communications in computer and information science (pp. 324-333).
  7. 7. Dricot, J.-M., Bontempi, G., & De Doncker, P. (2009). Static and dynamic localization techniques for wireless sensor networks. In Static and dynamic localization techniques for wireless sensor networks: where theory meets practice (pp. 249-281). Springer.(Sensor Networks).
  8. 8. Hao, Y., Klemm, M., Fort, A., Kovacs, I., Pedersen, G., Eggers, P., De Doncker, P., & Hall, P. (2006). Body centric UWB communications. In Antennas and propagation for body-centric wireless communication (pp. 93-150). Artech House.
    9.   Articles dans des revues avec comité de lecture (102)
  9. 1. Storrer, L., Yildirim, H. C., Willame, M., Pocoma Copa, E. I., Cakoni, D., Pollin, S., Louveaux, J., De Doncker, P., & Horlin, F. (2024). Large-Scale Crowd Counting with a Wi-Fi-Based Passive Radar. IEEE sensors journal.
  10. 2. Molineaux, G., Horlin, F., De Doncker, P., & Sarrazin, J. S. J. (2024). A Spatial Data Focusing and Generalized Time-invariant Frequency Diverse Array Approach for High Precision Range-angle-based Geocasting. IEEE transactions on wireless communications.
  11. 3. Pocoma Copa, E. I., Storrer, L., Quitin, F., Vandendorpe, L., De Doncker, P., & Horlin, F. (2023). Direct tracking of a wireless transmitter based on rao-blackwellized point mass filter. IEEE transactions on vehicular technology, 72(12), 16469 - 16481. doi:10.1109/TVT.2023.3291078
  12. 4. Yildirim, H. C., Storrer, L., De Doncker, P., Louveaux, J., & Horlin, F. (2022). A multi-antenna super-resolution passive Wi-Fi radar algorithm: Combined model order selection and parameter estimation. I E T Radar, Sonar and Navigation., (Early View). doi:10.1049/rsn2.12267
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