Projects at various levels:
- Nafosted Project: "Design and analysis of protocols to enhance the performance of bidirectional networks," Project code 102.04-2019.13, implementation period 09/2019 - 03/2022, role: Member
- Nafosted Project: "Enhancing the performance of relay radio networks using collaborative multi-hop protocols under the influence of co-channel interference and hardware degradation," Project code 102.04-2017.317, implementation period 08/2018 - 08/2020, role: Project leader
- Nafosted Project: "Evaluating the performance of relay radio networks under the influence of imperfect hardware," Project code 102.01-2014.33, implementation period 03/2015 - 03/2017, role: Project Leader
- Department-level project: “Designing a Broadband Network for Smart Cities,” project code 58/2021/HD-QKHCN, implementation period 12/2021 - 08/2022, role: Member
- Institution-level project on 5G network energy harvesting, automatic people counting system and citizen support
- Institution-level project: "Evaluating the performance of radio wave energy harvesting networks using Fountain codes," 03/2024 - 11/2024.
- Institution-level project: "Research on the security performance of collaborative multi-hop relay networks using Fountain codes," 03/2023 - 11/2023.
- Institution-level project: "Evaluating the performance of radio wave energy harvesting networks using Fountain codes," 03/2022 - 11/2022.
- Basic-level research project: "Evaluating the performance of radio wave energy harvesting networks using Fountain codes," March 2021 - November 2021.
- Basic-level research project: "Research on security performance for multi-user broadcast networks using Fountain codes and artificial jamming techniques," March 2021 - November 2021.
- Basic-level research project: "Research on security performance of collaborative-based cognitive radio networks using Fountain codes," March 2020 - November 2020.
- Basic-level research project: "Improving the performance of Fountain code-based networks with non-orthogonal multiple access (NOMA) techniques," March 2019 - November 2019.
- Basic-level research project: "Proposing and evaluating the effectiveness of information security for a MIMO model using Fountain codes under the influence of co-channel interference," March 2018 - November 2018.
- Basic-level research project: "Research on the effectiveness of physical layer security with Fountain codes using Transmit Diversity Technique (TAS) under the influence of hardware defects," March 2017 - November 2017.
- Basic-level research project: "Survey and proposing a distribution model for Wifi points in the city," March 2017 - November 2017.
- Basic-level research project: "Evaluating the impact of hardware attenuation on the security performance of a wireless relay network," March 2016 - November 2016.
- Basic-level research project: "Evaluating the security performance of secondary systems with single-part relay node selection techniques in cognitive radio baseband," March 2015 - November 2015.
- Basic-level research project: "Research and evaluation of the performance of multi-hop relay systems under the influence of co-channel interference and imperfect hardware," March 2015 - November 2015.
- Basic-level research project: "The Impact of Imperfect Hardware on the Performance of Secondary Systems in Cognitive Radio Baseband," March 2014 - November 2014.
International Projects:
- ITRC (Information Technology Research Center) Support Project (NIPA-2014-H0301-14-4007) funded by the National Information Technology Industry Promotion Agency of Korea (NIPA) from 2012 to 2015.
- Basic Science Research Project through the National Research Foundation of Korea (NRF), funded by the Ministry of Education (NRF-2013R1A1A2005024) during the period 2010–2015.
- R&D projects of the Korean Ministry of Trade, Industry and Energy (MOTIE) (10041629 [SimonPiC] and 10077468 [DeepTasK]) and ICT R&D programs of the Korea Institute for Information Technology Promotion (IITP) (2015-0-00197 [LISTEN] and 2017-0-00432 [BCI]) from 2015–2017 under the supervision of NIPA.
- R&D project of the Singapore National Robotics Research Program Office, grant code Ermine I: Long-term autonomy in the self-reconfiguring maintenance robot RGAST102, 2018–2020.
- R&D project of the Singapore National Robotics Research Programme Office, with grant code Ermine II: Long-term autonomy in the self-reconfiguring maintenance robot RGAST102, 2020–2022.
- Industrial cooperation project between SUTD Lionbot and companies in the Oceania region, project code Robots RGAST1368, 2020–2021.
- Business transfer projects:
- ARAR Automation Technology Joint Stock Company: Building an automated citizen service system using QR codes in 2024.
- Project “Multi-robot system applying 6G communication” (2024–2029)
