安全管理论文参考英文文献

请参考如下格式，M表示书籍，C表示会议论文，J表示期刊，寻找不易，还望及时采纳 [1]Chow W K. Application of Computational Fluid Dynamics: Fire safety awareness for gas station in dense urban areas with wind effects[C]//ASME 2004 Heat Transfer/Fluids Engineering Summer Conference. American Society of Mechanical Engineers, 2004: 1187-1195.[2]Hao X, Feng X. Fuzzy synthetic evaluation of gas station safety[M]//Fuzzy Information and Engineering 2010. Springer Berlin Heidelberg, 2010: 481-486.[3]Jing-cheng L, Hong-tu W, Wen-hua L, et al. Study on Safety Assessment of Gas Station Based on Fuzzy Theory[M]//Advances in Control and Communication. Springer Berlin Heidelberg, 2012: 391-398.[4]Cai L, Yao A, Li Y. Study on safety management and reconcile mechanism of human factors in natural gas fuelling station[C]//World Automation Congress (WAC), 2012. IEEE, 2012: 1-5.[5]Alliat I, Chelhaoui S, Perrette L, et al. Hydrogen refuelling stations. Example of a safety study for a hydrogen-natural gas refuelling station[C]//Proceedings of the 16th world hydrogen energy conference. 2006.[6]Chermanne J. GBR-4: concept of a 1,200 MWe-gas breeder nuclear power station. P. 2. A study concerned with safety and economics of the GBR[J]. Atomwirtsch Atomtech. 1974, 19(11):540-542[7]Uzelac D, Savović Z. Selection of safety devices for natural gas stations[J]. Gas, 2003, 8(2-3): 34-37.[8]Yang J M, Ko B S, Park C, et al. Design and implementation of an integrated safety management system for compressed natural gas stations using ubiquitous sensor network[J]. Korean Journal of Chemical Engineering, 2013: 1-9.[9]Feng W, Xiang X, Jia G, et al. Applying the Quantitative Risk Assessment (QRA) to Improve Safety Management of Oil and Gas Pipeline Stations in China[C]//2012 9th International Pipeline Conference. American Society of Mechanical Engineers, 2012: 505-512.[10]Komori M, Yoshida T, Onoue K, et al. Safety study of hydrogen supply stations for the review of high pressure gas safety law in Japan[C]//Proceeding of the 2nd International Conference on Hydrogen Safety. 2005: 8-10.

前面是综合介绍，最后有其他资料的链接Database security is the system, processes, and procedures that protect a database from unintended activity. Unintended activity can be categorized as authenticated misuse, malicious attacks or inadvertent mistakes made by authorized individuals or processes. Database security is also a specialty within the broader discipline of computer databases have been protected from external connections by firewalls or routers on the network perimeter with the database environment existing on the internal network opposed to being located within a demilitarized zone. Additional network security devices that detect and alert on malicious database protocol traffic include network intrusion detection systems along with host-based intrusion detection security is more critical as networks have become more provide many layers and types of information security, typically specified in the data dictionary, including: * Access control * Auditing * Authentication * Encryption * Integrity controlsDatabase security can begin with the process of creation and publishing of appropriate security standards for the database environment. The standards may include specific controls for the various relevant database platforms; a set of best practices that cross over the platforms; and linkages of the standards to higher level polices and governmental important procedure when evaluating database security is performing vulnerability assessments against the database. A vulnerability assessment attempts to find vulnerability holes that could be used to break into the database. Database administrators or information security administrators run vulnerability scans on databases to discover misconfiguration of controls within the layers mentioned above along with known vulnerabilities within the database software. The results of the scans should be used to harden the database in order to mitigate the threat of compromise by program of continual monitoring for compliance with database security standards is another important task for mission critical database environments. Two crucial aspects of database security compliance include patch management and the review and management of permissions (especially public) granted to objects within the database. Database objects may include table or other objects listed in the Table link. The permissions granted for SQL language commands on objects are considered in this process. One should note that compliance monitoring is similar to vulnerability assessment with the key difference that the results of vulnerability assessments generally drive the security standards that lead to the continuous monitoring program. Essentially, vulnerability assessment is a preliminary procedure to determine risk where a compliance program is the process of on-going risk compliance program should take into consideration any dependencies at the application software level as changes at the database level may have effects on the application software or the application server. In direct relation to this topic is that of application level authentication and authorization mechanisms should be considered as an effective means of providing abstraction from the database layer. The primary benefit of abstraction is that of a single sign-on capability across multiple databases and database platforms. A Single sign-on system should store the database user's credentials (login id and password), and authenticate to the database on behalf of the security layer of a more sophisticated nature includes the real-time monitoring of database protocol traffic (SQL) over the network, and/or local monitoring of database activity using software agents. Analysis can be performed on the traffic for known exploits or network traffic baselines can be captured overtime to build a normal pattern used for detection of anomalous activity that could be indicative of intrusion. These systems can provide a comprehensive Database audit trail in addition to the intrusion detection (and potentially protection) addition to using external tools for monitoring or auditing, native database audit capabilities are also available for many database platforms. The native audit trails are extracted on a regular basis and transferred to a designated security system where the database administrators do not have access. This ensures a certain level of segragation of duties that may provide evidence the native audit trails were not modified by authenticed administrators. Generally, the native audit trails of databases do not provide sufficient controls to enforce separation of duties; therefore, the network and/or kernel module level host based monitoring capabilities provides a higher degree of confidence for forsenics and preservation of an incident occurs, the usage of Database Forensics can be employed to determine the database security program should include the regular review of permissions granted to individually owned accounts and accounts used by automated processes. The accounts used by automated processes should have appropriate controls around password storage such as sufficient encryption and access controls to reduce the risk of compromise. For individual accounts, a two-factor authentication system should be considered in a database environment where the risk is commensurate with the expenditure for such an authentication conjunction with a sound database security program, an appropriate disaster recovery program should exist to ensure that service is not interrupted during a security incident or any other incident that results in an outage of the primary database environment. An example is that of replication for the primary databases to sites located in different geographical also * Negative databaseExternal links * * *

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