| 1. | Analysis on combined security efficiency and vulnerability for information system security evaluation
信息系统组合安全强度和脆弱性分析 |
| 2. | Furniture - bunk beds and high beds for non - domestic use - safety , strength and durability requirements
家具.非家用双层床和高床.安全强度和耐用性要求 |
| 3. | Furniture - bunk beds and high beds for non - domestic use - part 1 : safety , strength and durability requirements
家具.非家用床铺和高床.第1部分:安全强度和耐久性要求 |
| 4. | Furniture - bunk beds and high beds for non - domestic use - part 1 : safety , strength and durability requirements ; german version en 13453 - 1 : 2004
家具.非家用双层床和高床.第1部分:安全强度和耐久 |
| 5. | So far , the elliptic curve cryptosystem ( ecc ) provides the highest strength - per - bit of any cryptosystem known
椭圆曲线密码系统( ellipticcurvecryptosystem )是迄今为止每比特具有最高安全强度的密码系统。 |
| 6. | It is often desirable to restrict operations based upon the level of protection in place . the following shows how security strength factors ( ssf ) can be used
常常要基于适当的保护级别来限制操作。下面显示了如何使用安全强度因子( ssf ) 。 |
| 7. | Especially , the combined efficiency of different security functional components and anti - attack strength classification are described in detail
核心是讨论计算机信息系统各安全功能组件组合后对系统安全强度的影响和抗攻击强度级别划分的依据。 |
| 8. | The implementation result indicates that the elliptic curves with 192 bit we choosen have stronger security intensity and faster speed than rsa with 1024 bit
实现结果表明,我们选取的192bit椭圆曲线具有比1024bitrsa算法更高的安全强度和更快的运算速度。 |
| 9. | System security follow the " cask principle " , that is to say a cask ' s volume decide on the shortest wood plate that consists the cask
信息安全遵循“木桶原理” ,即一个木桶的容积决定于组成它的最短的一块木板,一个系统的安全强度等于它最薄弱环节的安全强度。 |
| 10. | Elliptic curve cryptography ( ecc ) was proposed independently in 1985 by victor miller and neal koblitz . it is a cryptography with the highest security intensity of each bit up until now
椭圆曲线密码体制( ecc )最早是在1985年分别由v . s . miller和nealkoblitz独立提出的,它是迄今为止每比特具有最高安全强度的密码体制。 |
