本中心研究重點集中在6G高階MIMO天線系統、通訊基頻演算法及感測技術，著重以下兩大研究群組

1. 6G高階 MIMO通訊系統: 包含6G終端/小基站中高頻高階 MIMO天線系統研究及6G高階MIMO系統效能與量測技術研究，目標在開發中高頻具有高速率及廣覆蓋成為6G新頻帶，包含：提升中高頻主要頻帶(6-9GHz)及潛力頻帶(12-15GHz)之使用者MIMO頻譜效率為5G系統的3.5倍以上；6G AI 基頻演算法及智慧電磁環境技術開發及其系統驗證; 校園6G中高頻智慧高階MIMO通訊系統示範場域建置。
2. 6G高頻MIMO感測系統: 包含6G微波/毫米波/太赫茲等頻段之感測元件與MIMO感測系統研究及在定位、移動、成像與生命徵象等感知技術研究，目標在開發6G IoE關鍵感測器並重點應用於自駕車與醫療照護，包含：研發創新的都普勒雷達技術配合先進的MIMO傳收技術以突破現有雷達系統在感測靈敏度及解析度之瓶頸；異質整合CMOS、GaN、IPD、AiP及液晶等元件使得感測器操作於毫米波/太赫茲頻率時具有高效率與高波束形成能力。

The Research Center focuses on the research of 6G high-order MIMO antenna systems, communication baseband algorithms, and sensing technology, which are implemented through the following two research groups:

1. The 6G High-Order MIMO Communication System includes (1) 6G terminal/access-point upper-mid-band MIMO antenna system and (2) 6G high-order MIMO technology studies. The goal is to develop high speed and wide coverage capabilities for the upper-mid-band to become a new 6G spectrum; improve the MIMO spectral efficiency for users in the upper-mid-band, including the current popular (6–9 GHz) and future potential (12–15 GHz) frequency bands to more than 3.5 times that of 5G systems; improve the 6G AI baseband algorithm and smart electromagnetic environment technology; and construct the campus 6G MIMO system demonstration field.

2. The 6G High-Order MIMO Communication System includes (1) 6G terminal/access-point upper-mid-band MIMO antenna system and (2) 6G high-order MIMO technology studies. The goal is to develop high speed and wide coverage capabilities for the upper-mid-band to become a new 6G spectrum; improve the MIMO spectral efficiency for users in the upper-mid-band, including the current popular (6–9 GHz) and future potential (12–15 GHz) frequency bands to more than 3.5 times that of 5G systems; improve the 6G AI baseband algorithm and smart electromagnetic environment technology; and construct the campus 6G MIMO system demonstration field.