A Visitor’s Hybrid Smart Guide Control System

IF 0.6 4区 工程技术 Q4 Engineering
C. Mosiori
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引用次数: 0

Abstract

Modern industrial society is filled with hybrid systems. The effectiveness of a control system is now a basic requirement in any institution. In general terms, hybrid systems are reactive systems that intermix discrete and continuous control components in which the discrete part of that control system makes the decision on behaving for the whole designed system and further decides if it can allow it to switch to another set of control protocols when appropriate conditions are availed. The continuous part only functions according to a specified protocol. Hybrid systems are common models used in digital (logic) and continuous networks and devices. Digital control programs detect, control, and supervise continuous and discrete systems using differential or difference equations. This principle was utilized in our design and reported thereof. Although this work developed a different method to deal with specific problems facing students at Technical University of Mombasa.  An upgrade was recommended so as to extend the control system to the eye- impaired students and visitors. Since the issue of optimal smart control systems cannot be ignored in the design of new control systems with today's requirements in our learning institutions, it was concluded that further research was necessary to bring about a fully reliable and well-developed control system able to use real-time and real routes as they exist at the university ground. This work reports a hybrid control guide system designed and implemented at the Technical University of Mombasa.  
一种访客混合智能导览控制系统
现代工业社会充满了混合系统。控制系统的有效性现在是任何机构的基本要求。一般来说,混合系统是一种反应系统,它混合了离散和连续的控制组件,其中控制系统的离散部分决定整个设计系统的行为,并进一步决定是否允许它在适当的条件下切换到另一组控制协议。连续部分只按照指定的协议工作。混合系统是数字(逻辑)和连续网络和设备中常用的模型。数字控制程序检测,控制和监督连续和离散系统使用微分或差分方程。这一原则在我们的设计中得到了应用,并进行了报告。虽然这项工作开发了一种不同的方法来处理蒙巴萨技术大学学生面临的具体问题。建议进行升级,以便将控制系统扩展到视障学生和访客。由于在我们的学习机构中,在设计符合当今要求的新控制系统时,最优智能控制系统的问题是不可忽视的,因此得出的结论是,有必要进行进一步的研究,以实现一个完全可靠和发达的控制系统,能够使用大学地面上存在的实时和真实路线。这项工作报告了蒙巴萨技术大学设计和实现的混合控制导向系统。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Nuclear Engineering International
Nuclear Engineering International 工程技术-核科学技术
自引率
0.00%
发文量
0
审稿时长
6-12 weeks
期刊介绍: Information not localized
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