【專利讓與及授權】科技部計畫產出專利公告(6件)-1090417

項次

技術名稱

專利證書號

摘要

專利期

1

一種採用循環位移正交鍵之多載波展頻映射裝置、發射機、接收機,及其通訊系統

I387236

本發明揭露一種採用循環位移正交鍵之多載波展頻映射裝置(Multi-carrier spread spectrum device using cyclic shift orthogonal keying),包含有一調變單元(modulation unit),用以接收一第一部份資料位元,經由一調變(modulation)方式以將該第一部份資料位元轉換成一調變符碼di;一循環位移單元(Cyclic Shift Orthogonal Keying,CSOK unit),用以接收一基底碼c(0)及一第二部份資料位元,並將該基底碼c(0)根據該第二部份資料位元進行循環位移以產生一CSOK符碼c(mi);以及一乘法器(multiplier),用以將該調變符碼di與該CSOK符碼c(mi)相乘,以產生一展頻訊號ci

2013/02/21-2027/08/30

2

圖像描述及其圖像識別方法

2933488

(申請公布號:CN104933397A)

本發明公開一種圖像描述及其圖像識別方法,其中該圖像描述方法包含(a)取得一圖像,該圖像具有多個像素。步驟(b)在該圖像決定一起始點的位置。步驟(c)在該圖像上,由該起始點沿著具有一前角度的一前螺旋線的軌跡取樣該等像素,讓該軌跡上的該等像素排列成一前螺旋集成線。步驟(d)將該前角度增加一角度變異量以形成具有一後角度的一後螺旋線,由該起始點沿著該後螺旋線的軌跡取樣該等像素,而該等像素排列成一後螺旋集成線。步驟(e)決定該角度變異量增加的次數,以重複地執行該步驟(d),而取得多個該後螺旋集成線,其中該等像素對應一數值。步驟(f)排列該前螺旋集成線與該等後螺旋集成線,形成一螺旋集成圖(Spiral Aggregation Map)

2015/03/18-2035/03/17

3

用於渦輪解碼之視窗停止方法

I531171

一種用於渦輪解碼之視窗停止方法,係於每一次疊代運算中進行渦輪解碼時,當軟式輸入軟式輸出解碼器執行渦輪解碼後,使用視窗偵測器對解碼資訊進行視窗偵測,以偵測並記錄解碼資訊內各視窗之收斂狀況,因此本發明能夠減少渦輪解碼每一次疊代運算內部視窗之運算量,以節省不必要運算進而降低功率消耗,故於往後之疊代運算時,能夠針對已收斂之視窗停止其內部運算進而達到低功耗渦輪解碼之設計。

2016/04/21-2033/01/03

4

SELF-OPTIMIZING DEPLOYMENT CASCADE CONTROL SCHEME AND DEVICE BASED ON TDMA FOR INDOOR SMALL CELL IN INTERFERENCE ENVIRONMENTS

US10,055,682 B2

The invention presents a self-optimizing deployment scheme and device for indoor small cell. Based on time division multiplexing access (TDMA) resource assignment, an adaptive neural fuzzy inference system (ANFIS) based self-optimizing deployment cascade control (SODCC) device is proposed for indoor small cell to enable easy installation, multi-user (MU) service reliability, optimum throughput, power saving, minimum interference and good cell coverage. The proposed SODCC device is designed with a cascade architecture, which mainly contains an ANFIS based initial power setting controller (IPSC) in the first unit, an ANFIS based channel quality index (CQI) decision controller (CQIDC) in the second unit and an ANFIS based self-optimizing power controller (SOPC) in the third unit. In addition, a protection mechanism of the self-optimizing power controller is included in the SODCC device to prevent the co-channel interference from the moving users of adjacent cells.

2016/07/20-2036/11/10

5

Organic electroluminescent materials containing N-phenylcarboline and organic electroluminescent device by using the same

US9,905,780 B2

An organic electroluminescent material is shown in General Formula (1),

圖 


wherein one of X1, X2, and X3 is an independent nitrogen atom, and R1 to R14 are each independently selected from the group consisting of a hydrogen atom, a fluorine atom, a cyano group, an alkyl group, a cycloalkyl group, an alkoxy group, a thioalkyl group, a silyl group, and an alkenyl group.

2015/12/31-2035/12/30

6

INTELLIGENT DEPLOYMENT CASCADE CONTROL DEVICE BASED ON AN FDD-OFDMA INDOOR SMALL CELL IN MULTI-USER AND INTERFERENCE ENVIRONMENTS

US10,080,200 B2

The invention presents an intelligent deployment cascade control (IDCC) device for frequency division duplexing (FDD)-orthogonal frequency division multiplexing access (OFDMA) indoor small cell to enable easy installation, multi-user (MU)service reliability, optimum throughput, power saving, minimum interference and good cell coverage. The proposed IDCC device is designed with a cascade architecture, which mainly contains five units including a resource allocator, a minimum throughput/cell edge CQI converter, an adaptive neural fuzzy inference system (ANFIS) based initial transmit power setting controller (ITPSC) in the first cascade unit, an ANFIS based channel quality index (CQI) decision controller (CQIDC) in the second cascade unit and an ANFIS based self-optimization power controller (SOPC) in the third cascade unit. The SOPC consists of three parts, namely the transmit power adjustment estimator (TPAE), transmission power assignment and self-optimization power controller protection mechanism.

2016/10/27-2036/11/08

讓受期限:2020/04/17-2020/07/16

連絡人:林彥芳小姐

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