1) Back-Forward-Binary-Search-Tree
推挽式二进制搜索
1.
In this paper,an anti-collision algorithm of Back-Forward-Binary-Search-Tree based on ISO15693 protocol is proposed and its performance is compared with that of the ALOHA arithmetic.
针对多个电子标签被识别时发生碰撞的射频识别(RFID)关键技术问题,本文提出一种完全符合ISO15693协议的推挽式二进制搜索算法,并在性能方面与ALOHA算法作了简单的比较。
2) deducing binary searching
推断式二进制搜索
3) binary-search-tree
二进制搜索
1.
Reader writer devices collision problem was analyzed with three situations,and introduces a method of preventing collision was presented in accordance with binary-search-tree of the search of binary system based on TDMA.
分析了读写器碰撞的3种情形,根据二进制搜索算法,提出了基于时分多路的二进制搜索防碰撞方法,并对其工作性能进行了分析,性能分析表明该算法满足实际应用需要。
4) binary search
二进制搜索
1.
Improved binary search anti-collision algorithm in RFID system;
改进型的二进制搜索RFID系统反碰撞算法
2.
Improved RFID binary search anti-collision algorithm
改进的RFID二进制搜索防碰撞算法
3.
In order to improve the identification efficiency of tag anti-collision algorithm in RFID system further,analyzing the performance of framed slotted ALOHA anti-collision algorithm,the improved framed slotted ALOHA algorithm is proposed with accurate tag estimation and binary search.
为进一步提高RFID系统中电子标签防碰撞算法的识别效率,对帧时隙ALOHA防碰撞算法的性能进行分析,提出一种结合精确标签估计和二进制搜索的改进型帧时隙ALOHA算法。
5) binary-tree searching of backtracking
返回式二进制树形搜索
1.
An anti-collision algorithm based on binary-tree searching of backtracking;
基于返回式二进制树形搜索的反碰撞算法
6) the anti-collision RFID algorithm based on jumping and the similar binary
跳跃式类二进制搜索法
补充资料:推挽式放大器
一种功率放大器。由一对参数相近的晶体管,交替工作在信号的正、负两个半周期成一推一挽形式的功率放大器。通常工作在乙类状态,两管集电极电流交替出现并合成在负载上,输出功率和效率大于单管功率放大器。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条