intersystem
简明释义
英[ˌɪntəˈsɪstəm]美[ˌɪntərˈsɪstəm]
系统间
英英释义
涉及或发生在不同系统之间的。 |
单词用法
系统间协议 | |
系统间链接 | |
系统间数据交换 | |
系统间关系 | |
系统间网络 | |
系统间框架 | |
系统间分析 | |
系统间支持 |
同义词
| 相互连接的 | 相互连接的系统允许更好的数据共享。 | ||
| 相互关联的 | The interrelated factors must be considered in the analysis. | 在分析中必须考虑相互关联的因素。 | |
| 相互依赖的 | These interdependent technologies enhance overall performance. | 这些相互依赖的技术提升了整体性能。 |
反义词
| 系统内部 | Intrasystem communication is crucial for the efficiency of the organization. | 系统内部的沟通对组织的效率至关重要。 | |
| 内部通信 | The intrasystem protocols ensure that all components work together seamlessly. | 系统内部协议确保所有组件无缝协作。 |
例句
1.CICS itself has its own private transactional intersystem communication (ISC) protocol, which is predominantly based upon the LU6.2 SNA formats and protocols.
CICS本身就拥有它自己专用的事务性的系统间通信(isc)协议,该协议主要以LU6.2sna格式和协议为基础。
2.The intersystem interference between WCDMA and TD-SCDMA base station is deeply analyzed, including co-site and coexistence.
针对WCDMA系统与TD - SCDMA系统基站之间的共站、共存问题,从干扰的角度进行了深入的分析。
3.3gpp2 was born to evolve North American and Asian Cellular Radio-telecommunication Intersystem Operations into a third-generation system.
成立3gpp2是为了将北美和亚洲移动无线电通信跨系统操作过渡到第三代系统。
4.We apply the kinetic analysis to investigate the role of the intersystem crossing.
我们应用动力学分析来研究系统间交叉的作用。
5.The environmental requirements for spacecraft and the EMC design technique used for the intersystem and intrasystem are included.
介绍了航天飞行器的电磁环境要求,系统间和系统内电磁兼容设计技术。
6.The essential elements within the system and the interaction of intersystem form the ecological system, economic system and social system, which produce composite results with the intervention of man.
系统内要素、系统间相互作用,构成生态系统、经济系统和社会系统,在人们的干预下产生综合效益。
7.The essential elements within the system and the interaction of intersystem form the ecological system, economic system and social system, which produce composite results with the intervention of man.
系统内要素、系统间相互作用,构成生态系统、经济系统和社会系统,在人们的干预下产生综合效益。
8.The new software allows for seamless intersystem 系统间 communication, improving efficiency across departments.
新软件允许无缝的系统间通信,提高了部门间的效率。
9.We faced challenges during the intersystem 系统间 migration, but the results were worth it.
在系统间迁移过程中,我们面临了挑战,但结果是值得的。
10.The intersystem 系统间 integration project aims to unify the various databases we use.
这个系统间集成项目旨在统一我们使用的各种数据库。
11.Our team is working on an intersystem 系统间 protocol to enhance data sharing between different platforms.
我们的团队正在开发一个系统间协议,以增强不同平台之间的数据共享。
12.The intersystem 系统间 interface allows users to access information from multiple sources easily.
这个系统间接口允许用户轻松访问来自多个来源的信息。
作文
In today's rapidly evolving technological landscape, the concept of intersystem (系统间的) communication and collaboration has become increasingly vital. As various systems, whether they be software applications, hardware devices, or organizational processes, continue to develop independently, the need for seamless integration between these disparate systems is paramount. This essay explores the importance of intersystem interactions, the challenges they present, and the potential benefits they can bring to businesses and society as a whole.Firstly, understanding the significance of intersystem communication is crucial. In many industries, organizations rely on multiple systems to manage different aspects of their operations. For example, a retail company might use separate systems for inventory management, customer relationship management (CRM), and point-of-sale transactions. Without effective intersystem connections, data silos can form, leading to inefficiencies and errors. When systems cannot communicate with each other, employees may spend excessive time manually transferring information, which not only wastes resources but also increases the likelihood of mistakes.Moreover, the lack of intersystem integration can hinder decision-making processes. In a world where timely information is critical, having access to real-time data from various sources is essential. For instance, if a sales team cannot easily access inventory levels from the warehouse system, they may overpromise product availability to customers, resulting in dissatisfaction and lost sales. Therefore, establishing robust intersystem links can empower organizations to make informed decisions based on comprehensive data analysis.However, achieving effective intersystem integration is not without its challenges. One major obstacle is the diversity of systems in use. Different software applications often operate on varying platforms, utilize distinct programming languages, and adhere to unique data formats. This diversity can create compatibility issues, making it difficult to establish smooth communication channels. Additionally, organizations may face resistance to change from employees who are accustomed to their existing systems and processes. Overcoming these barriers requires careful planning, investment in appropriate technologies, and a commitment to fostering a culture of adaptability within the organization.Despite these challenges, the potential benefits of successful intersystem integration are substantial. Organizations that invest in creating interconnected systems can enjoy increased operational efficiency, enhanced customer experiences, and improved data accuracy. For example, consider a healthcare provider that successfully integrates its patient management system with its billing and insurance processing systems. By doing so, they can streamline patient check-ins, reduce billing errors, and ultimately provide better care to patients.Furthermore, the rise of cloud computing and application programming interfaces (APIs) has made it easier than ever to facilitate intersystem communication. Cloud-based solutions allow for greater flexibility and scalability, enabling organizations to connect various systems without the need for extensive on-premises infrastructure. APIs serve as bridges between different software applications, allowing them to share data and functionality seamlessly.In conclusion, the concept of intersystem integration is essential in today's interconnected world. As organizations strive to enhance efficiency and improve decision-making, they must prioritize the establishment of effective communication channels between their various systems. While challenges exist, the benefits of successful intersystem collaboration far outweigh the obstacles. By embracing technology and fostering a culture of integration, businesses can position themselves for success in an increasingly complex environment.
在当今快速发展的技术环境中,intersystem(系统间的)通信与协作的概念变得越来越重要。随着各种系统,无论是软件应用、硬件设备还是组织流程,继续独立发展,促进这些不同系统之间的无缝集成的需求变得至关重要。本文探讨了intersystem交互的重要性、所面临的挑战以及它们可能为企业和社会整体带来的潜在好处。首先,理解intersystem通信的重要性至关重要。在许多行业中,组织依赖多个系统来管理其运营的不同方面。例如,一家零售公司可能使用单独的系统来进行库存管理、客户关系管理(CRM)和销售点交易。如果没有有效的intersystem连接,数据孤岛可能会形成,导致低效和错误。当系统无法相互通信时,员工可能会花费过多时间手动传输信息,这不仅浪费资源,还增加了错误的可能性。此外,缺乏intersystem集成可能会阻碍决策过程。在一个及时信息至关重要的世界中,访问来自不同来源的实时数据是必不可少的。例如,如果销售团队无法轻松访问仓库系统的库存水平,他们可能会向客户过度承诺产品的可用性,导致客户不满意和销售损失。因此,建立强大的intersystem链接可以使组织能够基于全面的数据分析做出明智的决策。然而,实现有效的intersystem集成并非没有挑战。一个主要障碍是使用系统的多样性。不同的软件应用程序通常在不同的平台上运行,使用不同的编程语言,并遵循独特的数据格式。这种多样性可能会造成兼容性问题,使得建立顺畅的通信渠道变得困难。此外,组织可能面临来自习惯于现有系统和流程的员工的抵制。克服这些障碍需要仔细的规划、对适当技术的投资,以及致力于在组织内部培养适应文化的承诺。尽管存在这些挑战,但成功的intersystem集成的潜在好处是巨大的。投资于创建互联系统的组织可以享受更高的运营效率、增强的客户体验和改善的数据准确性。例如,考虑一家成功将其病人管理系统与账单和保险处理系统集成的医疗服务提供者。通过这样做,他们可以简化病人登记、减少账单错误,并最终为病人提供更好的护理。此外,云计算和应用程序编程接口(API)的兴起使得促进intersystem通信比以往任何时候都容易。基于云的解决方案提供了更大的灵活性和可扩展性,使得组织能够在不需要大量本地基础设施的情况下连接各种系统。API作为不同软件应用程序之间的桥梁,允许它们无缝共享数据和功能。总之,intersystem集成的概念在当今互联的世界中至关重要。随着组织努力提高效率和改善决策,他们必须优先建立其各种系统之间的有效通信渠道。尽管存在挑战,但成功的intersystem协作的好处远远超过障碍。通过拥抱技术并培养集成文化,企业可以在日益复杂的环境中为成功铺平道路。
