该系统采用滚动编译码方式,每发射一次编码按非线性滚动变化一次。
The system employs rolling coding-decoding, producing a change of coding by non-linear rolling for every transmission.
通信系统的优化可用最优编码方式实现,不同的系统优化指标可产生不同的最佳编、译码方式。
Using the optimum code can obtain the optimization of communication system. Different system optimization targets can produce different optimum code.
本文从译码方式、驱动方式、数据传输接口方式等三方面来分别比较了显示常用的方法以及常用的芯片,并通过表格对常用芯片的功能进行了比较说明。
This paper introduced three modes to compare the display, Decoder, driver and data transmit. And particularize some IC in common use. And compare those. IC by a form.
译码有效负载和以某种方式(使用SOAPAPI他们自己的语言)响应使通信能简单地跨越“编程语言障碍”-并且这使SOAP具有吸引力。
Decoding the payload and responding in kind (using a SOAP API in their own language) makes communication across the "programming language barrier" simple — and it makes SOAP appealing.
由于嵌入式系统硬件资源的有限性,本论文以解释方式为主全面的分析研究了数控系统中译码模块所要实现的绝大部分功能。
Mainly using interpretive mode, it rounded analysis and research majority function which need realized in decoding module, owing to finiteness of hardware resource in embedded system.
该结构采用译码的方式依次选通每个扫描小组,使得扫描小组中的存储元件并行地控制和观测。
Each scan group is selected in turn by decoder so that storage elements in each scan group can be controlled and observed in parallel.
为防止过多错误反馈造成译码失效,提出采用内、外双重迭代方式提高系统的鲁棒性。
Both outer and inner iterations are used to avoid too much error feedback which may cause decoding failures.
为防止过多错误反馈造成译码失效,提出采用内、外双重迭代方式提高系统的鲁棒性。
Both outer and inner iterations are used to avoid too much errors feedback which may cause decoding failure.
再设计度量值和状态度量值存储方式及幸存路径存储方式,以提高存储效率、译码效率以及节省芯片资源。
Design how to save branch metrics, state metrics and the surviving path memory to improve storage efficiency, coding efficiency and save chip resources.
再设计度量值和状态度量值存储方式及幸存路径存储方式,以提高存储效率、译码效率以及节省芯片资源。
Design how to save branch metrics, state metrics and the surviving path memory to improve storage efficiency, coding efficiency and save chip resources.
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