提出过筛连通法并结合运用BP神经网络技术,解决了读数图像缺陷字符和相似字符的误识问题。
The problems of reading defect characters of images and misrecognition of similar characters can be solved by a kind of sifting-connection algorithm and the application of BP neural network technique.
它确实有些明显的不足,包括原始的数据类型化和缺乏字符编码支持(这对XML使用来说是个令人吃惊的缺陷)。
It does have some notable weaknesses, including primitive data typing and lack of support for character encodings (an astonishing flaw given its use of XML).
该程序有一个性能缺陷—我是按值而不是按指针在关联的字符串表中检索字符串条目的。
The program has one performance flaw-i retrieve the string entry in the associated string table by value rather than pointer.
标记这些字符串可以防止它们被翻译,并防止全球化后出现潜在的缺陷。
Marking these stings prevents them from being translated and prevents potential defects after globalization.
为了演示这个缺陷带来的问题,我测评了在长度为 10,690,488的字符串中寻找模式 “Crachit*” 的所有实例所花费的时间。
To illustrate the problem that this causes, I benchmarked the time it takes to find all instances of the pattern "Crachit*" in a string with length 10,690,488.
根本的缺陷在于,ReadAllLines会暂停程序的运行直到整个文件都被读到字符串数组中。
The fundamental flaw is that ReadAllLines does just that, it pauses the program until the entire file can be read into an array of strings.
密集的字符串操作和粗浅地编写正则表达式可能是主要性能障碍,但本章中的建议可帮助您避免常见缺陷。
Intensive string operations and incautiously crafted regexes can be major performance obstructions, but the advice in this chapter helps you avoid common pitfalls.
结果表明系统不仅能快速有效的检测缺陷而且字符识别率达到95%。
The result shows that the system not only can detect the defects effectively but also can reach a character recognition rate of 95%.
导致此缺陷的常见原因是传递给字符串操作函数的是缓冲区大小,而不是缓冲区内的剩余字符数。
A common cause of this defect is passing the buffer size, instead of the remaining number of characters in the buffer, to the string manipulation function.
导致此缺陷的常见原因是传递给字符串操作函数的是缓冲区大小,而不是缓冲区内的剩余字符数。
A common cause of this defect is passing the buffer size, instead of the remaining number of characters in the buffer, to the string manipulation function.
应用推荐