电子设计工程
電子設計工程
전자설계공정
ELECTRONIC DESIGN ENGINEERING
2015年
12期
4-7
,共4页
乔杰%李致金%郝一飞%胡鸣蕾
喬傑%李緻金%郝一飛%鬍鳴蕾
교걸%리치금%학일비%호명뢰
LD3320%Arduino%指关节%伺服电机%FSR402
LD3320%Arduino%指關節%伺服電機%FSR402
LD3320%Arduino%지관절%사복전궤%FSR402
LD3320%Arduino%finger joint%servo motor%FSR402
为了实现对假手的智能控制,文中提出一种基于语音控制的设计方案。语音识别系统接收发音人的语音命令,并将语音命令转换成主控系统能识别的数字信号。主控系统接收数字信号,同时根据命令向指关节发送数据驱动指关节伺服电机正向或反向转动。指关节转动的角度被指关节电位器转换成相应的电信号。主控系统将角度电信号转换成数字信号,并将此数字信号和命令初始数据比较,从而发出修正命令数据,驱动指关节伺服电机走到指定的位置。在抓握不同物品时,本系统中在每个指尖安装有高灵敏度的压力传感器以检测指尖的受力,确保物品既被抓牢又不被压坏,从而实现对假手的智能控制。
為瞭實現對假手的智能控製,文中提齣一種基于語音控製的設計方案。語音識彆繫統接收髮音人的語音命令,併將語音命令轉換成主控繫統能識彆的數字信號。主控繫統接收數字信號,同時根據命令嚮指關節髮送數據驅動指關節伺服電機正嚮或反嚮轉動。指關節轉動的角度被指關節電位器轉換成相應的電信號。主控繫統將角度電信號轉換成數字信號,併將此數字信號和命令初始數據比較,從而髮齣脩正命令數據,驅動指關節伺服電機走到指定的位置。在抓握不同物品時,本繫統中在每箇指尖安裝有高靈敏度的壓力傳感器以檢測指尖的受力,確保物品既被抓牢又不被壓壞,從而實現對假手的智能控製。
위료실현대가수적지능공제,문중제출일충기우어음공제적설계방안。어음식별계통접수발음인적어음명령,병장어음명령전환성주공계통능식별적수자신호。주공계통접수수자신호,동시근거명령향지관절발송수거구동지관절사복전궤정향혹반향전동。지관절전동적각도피지관절전위기전환성상응적전신호。주공계통장각도전신호전환성수자신호,병장차수자신호화명령초시수거비교,종이발출수정명령수거,구동지관절사복전궤주도지정적위치。재조악불동물품시,본계통중재매개지첨안장유고령민도적압력전감기이검측지첨적수력,학보물품기피조뢰우불피압배,종이실현대가수적지능공제。
In order to realize the intelligent control of the prosthetic hand, this paper proposed a design based on speech control. Speech recognition system receives the user's voice command, and converts the voice command into digital signal which can be recognized by main control system. After receiving the digital signal, main control system will send data which can drive finger joint servo motor rotating forwardly or reversely, at the same time the angle data will be convert into electrical signal by finger joint potentiometer. Main control system will convert this electrical signal into digital signal, and compare this digital signal with original command data. Finally, main control system can get revised data, which can drive finger joint servo motor moving to the correct position. When needing to grasp the different objects, this system can detect the fingertip pressure by high sensitivity pressure sensors mounted at the fingertip, which can ensure the item is to be grasped and will not be crushed. Thus, the intelligent control of the prosthetic hand can be realized.
