Model real-time embedded aspects, such as concurrency, allocations, and time.
模型实时嵌入式方面,例如并发性,分配和时间。
The work in this paper provides the foundation for further research on mixed real-time transaction scheduling and concurrency control, and processing mixed transactions in actual application systems.
本文的研究成果为进一步探讨混合实时事务的调度与并发控制,以及实际应用中的混合事务处理提供了良好的基础。
In order to further reduce the number of mobile real-time transaction restarts, we introduce the notion of similarity in concurrency control.
为了进一步减少移动实时事务重启的数目,在并发控制协议中引入了相似性的概念。
In active real-time database systems, transaction concurrency control gets more difficult for integrating time constraint with active mechanism.
主动实时数据库因结合了时间限制与主动机制而使系统事务的并发控制变得更为复杂。
A new real-time optimistic concurrency control protocol is proposed, which USES importance of transactions.
提出了一种新的基于事务重要性的实时乐观并发控制协议。
This paper studies the model of transaction execution and presents real-time validation concurrency control protocol(RTVCC)for RTADBSs.
该文研究了实时主动数据库事务执行模式,提出了有效性检查并发控制协议。
Serializable concurrency control protocols are unsuitable for real-time database systems.
可串行化的并发控制对传统应用是合适的。
Multiversion optimistic concurrency control (MVOCC) protocol and mobile transaction real-time commit (MTRTC) protocol are presented for mobile distributed real-time database systems (MDRTDBSs).
提出了移动事务实时提交协议(MTRTC)和多版本乐观并发控制协议(MVOCC)处理移动分布式实时事务。
The thread integration technique-a new method for providing real time task concurrency on single microcontrollers and microprocessors is presented.
介绍了线程集成技术在通用单片微处理器或微控制器上实现实时任务并行性的新方法。
However, the traditional real-time database concurrency control protocol does not provide security supports.
然而,传统的实时数据库中的并发控制协议没有提供对安全性的支持。
This paper proposes a hybrid optimistic real-time transaction concurrency control method based on high priority two phase locking scheme (HORTCC-SHP2PL).
提出了一种基于高优先级两段锁的混合乐观实时事务并发控制协议(HORTCC -SHP2PL)。
Moreover, conventional concurrency control and scheduling methods for update transactions are not suitable in that mobile real-time transactions are complicated and nested.
而且,由于移动实时数据库系统中大多数事务都是复杂的嵌套事务,传统调度策略都已不太适用。
Moreover, conventional concurrency control and scheduling methods for update transactions are not suitable in that mobile real-time transactions are complicated and nested.
而且,由于移动实时数据库系统中大多数事务都是复杂的嵌套事务,传统调度策略都已不太适用。
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