diff --git a/index.md b/index.md
index 43f20a0..3ea6ef0 100644
--- a/index.md
+++ b/index.md
@@ -143,7 +143,7 @@ The above figure shows channel charting results obtained from real-world measure
* P. Kazemi, "Channel Charting-based Radio Resource Management," doctoral thesis, Mar. 2025
-* P. Stephan, F. Euchner, S. ten Brink, "Channel Charting-Based Channel Prediction on Real-World Distributed Massive MIMO CSI," IEEE Wireless Communications and Networking Conference (WCNC), Mar. 2025
+* P. Stephan, F. Euchner, S. ten Brink, "Channel Charting-Based Channel Prediction on Real-World Distributed Massive MIMO CSI," IEEE Wireless Communications and Networking Conference (WCNC), Mar. 2025, GitHub repository
* F. Euchner, D. Kellner, P. Stephan, S. ten Brink, "Passive Channel Charting: Locating Passive Targets using Wi-Fi Channel State Information," arXiv preprint, Apr. 2025, GitHub repository
@@ -157,12 +157,32 @@ The above figure shows channel charting results obtained from real-world measure
* Ge Chen, P. Chen, and L. Cheng, "Deep Tensor Learning for Reliable Channel Charting from Incomplete and Noisy Measurements," arXiv preprint: 2509.13030, Sep. 2025
+* P. Stephan, F. Euchner, S. ten Brink, "CSI Obfuscation: Single-Antenna Transmitters Can Not Hide from Adversarial Multi-Antenna Radio Localization Systems," 28th International Workshop on Smart Antennas (WSA), Sep. 2025, GitHub repository
+
* Y. Zhang, G. Pan, M. F. Keskin, O. Kaltiokallio, M. Valkama, and H. Wymeersch, “UNILocPro: Unified Localization Integrating Model-Based Geometry and Channel Charting,” arXiv preprint: 2510.27394, Oct. 2025
* R. Wiesmayr, F. Zumegen, S. Taner, C. Dick, and C. Studer, "CSI-Based User Positioning, Channel Charting, and Device Classification with an NVIDIA 5G Testbed," in *Asilomar Conf. Signals, Syst., Comput.*, arXiv preprint:2512.10809, Oct. 2025
+* H. Abbass, L. Le Magoarou, J. Farah, and M. Crussière, "Channel Charting for Efficient Precoding in Cell-Free Massive MIMO," 59th Asilomar Conference on Signals, Systems, and Computers, Oct. 2025
+
+* M. E. M. Makhlouf, Y. Vindas, A. Kumar, M. Guillaud, and M. Di Renzo, "Charting Channels in the Presence of RIS," 59th Asilomar Conference on Signals, Systems, and Computers, Oct. 2025
+
+* P. Stephan, F. Euchner, S. ten Brink, "Three-Dimensional Radio Localization: A Channel Charting-Based Approach," 59th Asilomar Conference on Signals, Systems, and Computers, Oct. 2025, GitHub repository
+
+* J. Pirkl, J. Ott, M. Stahlke, G. Yammine, T. Feigl, and C. Mutschler, "Resilient Channel Charting Under Varying Radio Link Availability," 59th Asilomar Conference on Signals, Systems, and Computers, Oct. 2025
+
* J. M. Mateos-Ramos, F. Zumegen, H. Wymeersch, C. Häger, and C. Studer, “Positioning via Digital-Twin-Aided Channel Charting with Large-Scale CSI Features,” arXiv preprint: 2511.09227, Nov. 2025
+2026
+
+* H. Huang, G. Pan, K. Huang, S. Zhang, Y. Zhang, M. F. Keskin, Z. Xing, and H. Wymeersch, "A Retrieval-Assisted Framework for Wireless Localization," arXiv preprint: 2603.06158, Mar. 2026
+
+* M. Ahadi, O. Esrafilian, F. Kaltenberger, and A. Malik, "TDoA-Based Self-Supervised Channel Charting with NLoS Mitigation," IEEE Transactions on Machine Learning in Communications and Networking, Apr. 2026
+
+* A. Kumar, Y. Vindas, and M. Guillaud, "Doppler-Supervised Channel Charting," IEEE International Conference on Communications (ICC), May 2026
+
+* N. Saba, P. Garau Burguera, J. Liao, H. Al-Tous, O. Tirkkonen, and R. Jäntti, "Backscatter Devices Assisted Channel Charting," IEEE Vehicular Technology Conference (VTC), Jun. 2026
+
## Tutorials
* P. Stephan, "Timestamp / Triplet-Based Channel Charting," Online Tutorial, Jul. 2022
@@ -177,12 +197,22 @@ The above figure shows channel charting results obtained from real-world measure
* M. Stahlke, G. Yammine, T. Feigl, B. W. Eskofier, C. Mutschler, Source code for "Indoor Localization with Robust Global Channel Charting"
+* P. Stephan, "Timestamp / Triplet-Based Channel Charting," Jupyter Notebook, Tutorial with code
+
* F. Euchner, C. Eun Lee and P. Stephan, "Dissimilarity Metric-Based Channel Charting," Jupyter Notebook, Tutorial with code
* F. Euchner, "Time of Arrival / Angle of Arrival-augmented Channel Charting," Jupyter Notebooks
* F. Euchner, S. ten Brink, "Channel Charting with WiFi CSI Datasets generated by ESPARGOS," Jupyter Notebooks
+* F. Euchner, "Passive Channel Charting," Jupyter Notebooks
+
+* P. Stephan, "Channel Charting-Based Channel Prediction," Jupyter Notebooks
+
+* P. Stephan, "Adversarial Radio Localization / Channel Charting," Jupyter Notebooks
+
+* P. Stephan, "3D Channel Charting," Jupyter Notebooks
+
* S. Taner, "Channel Charting for Streaming CSI," GitHub repository with PyTorch code for the results in the Asilomar 2023 paper on "Channel Charting for Streaming CSI Data,"by S. Taner, M. Guillaud, O. Tirkkonen, and C. Studer
* S. Taner, "Channel Charting in Real-World Coordinates with Distributed MIMO," GitHub repository with PyTorch code for the results in the IEEE Transactions on Wireless Communications 2025 paper on "Channel Charting in Real-World Coordinates with Distributed MIMO," by S. Taner, V. Palhares, and C. Studer