結合空時區塊編碼 (space-time block code) 的空間調變 (spatial modulation),比 起傳統的空間調變藉由一次使用兩個傳送天線可以增加多樣性。然而,現有的 STBC-SM 方案使用旋轉角度來提高頻譜效率,這導致編碼增益距離較小並且星 座擴展較小。為了解決這個問題,我們提出了一種新的 STBC-SM 方案,該方案 通過置換多個 STBC 區塊的符元而無需旋轉角度,從而通過選擇不同的排列樣式 來提高數據速率。該方案被稱為具有符號排列 (symbol permutation) 的空時區塊編 碼。我們推導了符號排列樣式並設計了 STBC-SM-SP 的例子。為了降低複雜性, 我們提出了一種簡化複雜度的最大相似度檢測器,該檢測器的複雜性隨著傳送 天線的數量呈線性增長。此外,所提出的符元排列可應用於其他 STBC-SM 方案 以提高其頻譜效率。分析界限和電腦模擬結果表明,STBC-SM-SP 和結合符元的 STBC-SM 系統都優於其他 STBC-SM 技術。;Spatial modulation (SM) with space-time block coding (STBC) increases diversity order compared to conventional SM by activating two transmit antennas each time. However, existing STBC-SM schemes use rotation angles to increase spectral efficiency, leading to smaller coding-gain distance and constellation expansion. To address this, we propose a novel STBCSM scheme that permutates symbols of multiple STBC blocks without rotation angles, allowing for increased data rate by selecting different permutation patterns. The proposed scheme is called STBC-SM with symbol permutation (STBC-SM-SP). We derive permutation patterns and design examples of STBC-SM-SP. To reduce complexity, we propose a reduced-complexity maximum-likelihood (ML) detector for STBC-SM-SP, whose complexity grows linearly with the number of transmit antennas. Moreover, the proposed symbol permutation (SP) can be applied to other STBC-SM schemes to improve their spectral efficiency. Analytical bounds and computer simulations demonstrate that both STBC-SM-SP and an STBC-SM system combined with SP outperform other STBC-SM techniques