| Advanced interference management for 5G cellular networks W Nam, D Bai, J Lee, I Kang IEEE Communications Magazine 52 (5), 52-60, 2014 | 281 | 2014 |
| Low-power Viterbi decoder for CDMA mobile terminals I Kang, AN Willson IEEE journal of solid-state circuits 33 (3), 473-482, 1998 | 155 | 1998 |
| 7.1 An 11.5 TOPS/W 1024-MAC butterfly structure dual-core sparsity-aware neural processing unit in 8nm flagship mobile SoC J Song, Y Cho, JS Park, JW Jang, S Lee, JH Song, JG Lee, I Kang 2019 IEEE international solid-state circuits conference-(ISSCC), 130-132, 2019 | 145 | 2019 |
| LTE-advanced modem design: Challenges and perspectives D Bai, C Park, J Lee, H Nguyen, J Singh, A Gupta, Z Pi, T Kim, C Lim, ... IEEE Communications Magazine 50 (2), 178-186, 2012 | 130 | 2012 |
| Direct memory swapping between NAND flash and SRAM with error correction coding J Wei, I Kang, J Arceo, J Husseini, T Li, B Meagher, R Higgins, M Oishi, ... US Patent 6,683,817, 2004 | 124 | 2004 |
| Polar coding for bit-interleaved coded modulation H Mahdavifar, M El-Khamy, J Lee, I Kang IEEE Transactions on Vehicular Technology 65 (5), 3115-3127, 2015 | 116 | 2015 |
| Method and system for encoding and decoding data using concatenated polar codes H Mahdavifar, M El-Khamy, J Lee, I Kang US Patent 9,362,956, 2016 | 113 | 2016 |
| HARQ rate-compatible polar codes for wireless channels M El-Khamy, J Lee, I Kang, LIN Hsien-Ping US Patent 9,742,440, 2017 | 110 | 2017 |
| Robust and Efficient dynamic voltage scaling for portable devices I Kang, K Ethirajan, ML Severson, M Elgebaly, M Sachdev, A Fahim US Patent 7,583,555, 2009 | 109 | 2009 |
| Power collapse for a wireless terminal I Kang, K Ethirajan US Patent 7,369,815, 2008 | 109 | 2008 |
| Performance limits and practical decoding of interleaved Reed-Solomon polar concatenated codes H Mahdavifar, M El-Khamy, J Lee, I Kang IEEE Transactions on Communications 62 (5), 1406-1417, 2014 | 97 | 2014 |
| On the construction and decoding of concatenated polar codes H Mahdavifar, M El-Khamy, J Lee, I Kang 2013 IEEE International Symposium on Information Theory, 952-956, 2013 | 63 | 2013 |
| 9.5 A 6K-MAC feature-map-sparsity-aware neural processing unit in 5nm flagship mobile SoC JS Park, JW Jang, H Lee, D Lee, S Lee, H Jung, S Lee, S Kwon, K Jeong, ... 2021 IEEE International Solid-State Circuits Conference (ISSCC) 64, 152-154, 2021 | 57 | 2021 |
| Direct current offset cancellation for mobile station modems using direct conversion C Holenstein, I Kang, M Severson US Patent 6,985,711, 2006 | 57 | 2006 |
| Direct conversion of narrow-band RF signals ML Severson, I Kang, A Raghupathy US Patent 6,775,530, 2004 | 55 | 2004 |
| Direct conversion receiver architecture T Li, C Holenstein, I Kang, B Walker, P Peterzell, R Challa, M Severson, ... US Patent App. 10/034,734, 2002 | 54 | 2002 |
| Relaxed polar codes M El-Khamy, H Mahdavifar, G Feygin, J Lee, I Kang IEEE Transactions on Information Theory 63 (4), 1986-2000, 2017 | 52 | 2017 |
| Partitioned interleaver memory for map decoder I Kang US Patent 6,381,728, 2002 | 49 | 2002 |
| A multi-mode 8k-MAC HW-utilization-aware neural processing unit with a unified multi-precision datapath in 4-nm flagship mobile SoC JS Park, C Park, S Kwon, T Jeon, Y Kang, H Lee, D Lee, J Kim, HS Kim, ... IEEE Journal of Solid-State Circuits 58 (1), 189-202, 2022 | 46 | 2022 |
| Blind adaptive I/Q imbalance compensation algorithms for direct-conversion receivers W Nam, H Roh, J Lee, I Kang IEEE Signal Processing Letters 19 (8), 475-478, 2012 | 44 | 2012 |