batch type data transmission system

简明释义

间歇式数据传胔系统;

英英释义

例句

1.Using a batch type data transmission system can significantly reduce the time needed for data processing in financial institutions.

使用批量数据传输系统可以显著减少金融机构数据处理所需的时间。

2.The batch type data transmission system allows for scheduled uploads, minimizing network congestion during peak hours.

该批量数据传输系统允许定时上传，最大限度地减少高峰时段的网络拥堵。

3.The company implemented a batch type data transmission system to efficiently process large volumes of transactions at once.

公司实施了一种批量数据传输系统，以高效处理大量交易。

4.The logistics company relies on a batch type data transmission system to update shipment statuses across its network.

物流公司依赖于批量数据传输系统在其网络中更新货物状态。

5.In healthcare, a batch type data transmission system is used to send patient records securely to different departments.

在医疗保健中，使用批量数据传输系统安全地将病历发送到不同部门。

作文

In today's digital world, efficient data transmission is crucial for the seamless operation of various systems. One of the methods that have gained popularity in data communication is the batch type data transmission system. This system allows for the collection and transmission of data in groups or 'batches', rather than sending each piece of data individually. This approach has significant advantages, especially in environments where large volumes of data need to be processed quickly and efficiently.The concept of a batch type data transmission system can be understood by considering its application in industries such as telecommunications, finance, and healthcare. For instance, in the telecommunications sector, service providers often collect usage data from millions of customers. Instead of transmitting this information in real-time, which could overwhelm the network, they use a batch type data transmission system to compile the data into batches and send it during off-peak hours. This method not only reduces congestion but also optimizes bandwidth usage.Moreover, in the financial industry, banks and financial institutions frequently deal with transactions that require secure and efficient data handling. By employing a batch type data transmission system, these institutions can process large amounts of transaction data at once, ensuring that all records are updated simultaneously. This is particularly beneficial for end-of-day processing, where all transactions from the day are compiled and transmitted in one batch, allowing for accurate account balances and reporting.Healthcare is another field that benefits from batch type data transmission systems. Hospitals and clinics generate vast amounts of patient data daily, including test results, treatment records, and billing information. Using a batch type data transmission system enables healthcare providers to aggregate this data and send it to centralized databases or insurance companies in batches, improving efficiency and reducing the risk of errors that could occur with individual data transmissions.Despite its many advantages, the batch type data transmission system is not without its challenges. One of the primary concerns is the potential delay in data availability. Since data is collected and sent in batches, there may be a lag between when the data is generated and when it is available for analysis or reporting. This delay can be critical in situations requiring real-time data access, such as emergency response scenarios.Furthermore, the design and implementation of a batch type data transmission system require careful consideration of factors such as data integrity, security, and error handling. Organizations must ensure that the data remains accurate and secure during the batching and transmission processes to prevent data loss or breaches.In conclusion, the batch type data transmission system represents a vital component of modern data communication strategies. Its ability to efficiently handle large volumes of data makes it an attractive option for various industries. However, organizations must weigh the benefits against the potential drawbacks, particularly regarding data availability and security. As technology continues to evolve, we can expect further innovations in data transmission methods that will enhance the effectiveness of batch type data transmission systems and address their limitations.

在当今数字化的世界中，高效的数据传输对各种系统的无缝运行至关重要。数据通信中逐渐受到欢迎的方法之一是批量数据传输系统。该系统允许将数据以组或“批次”的形式收集和传输，而不是单独发送每一条数据。这种方法具有显著的优势，尤其是在需要快速高效处理大量数据的环境中。批量数据传输系统的概念可以通过考虑其在电信、金融和医疗等行业的应用来理解。例如，在电信行业，服务提供商通常会收集数百万客户的使用数据。与其实时传输这些信息（这可能会使网络不堪重负），不如使用批量数据传输系统在非高峰时段将数据编译成批次并发送。这种方法不仅减少了拥堵，还优化了带宽使用。此外，在金融行业，银行和金融机构经常处理需要安全和高效数据处理的交易。通过采用批量数据传输系统，这些机构可以一次处理大量交易数据，确保所有记录同时更新。这对于日终处理特别有利，因为当天的所有交易都被编译并作为一个批次发送，从而确保账户余额和报告的准确性。医疗保健是另一个受益于批量数据传输系统的领域。医院和诊所每天生成大量患者数据，包括检测结果、治疗记录和账单信息。使用批量数据传输系统使医疗服务提供者能够聚合这些数据并批量发送到集中数据库或保险公司，提高了效率并减少了因单独数据传输而可能出现的错误风险。尽管有许多优点，批量数据传输系统也并非没有挑战。其中一个主要问题是数据可用性可能存在延迟。由于数据是以批次收集和发送的，因此在生成数据和可供分析或报告之间可能会有延迟。这种延迟在需要实时数据访问的情况下可能至关重要，例如紧急响应场景。此外，设计和实施批量数据传输系统需要仔细考虑数据完整性、安全性和错误处理等因素。组织必须确保在批处理和传输过程中数据保持准确和安全，以防止数据丢失或泄露。总之，批量数据传输系统代表了现代数据通信策略的重要组成部分。其高效处理大量数据的能力使其成为各行各业的一个有吸引力的选择。然而，组织必须权衡其好处与潜在缺点，特别是在数据可用性和安全性方面。随着技术的不断发展，我们可以期待在数据传输方法上进一步创新，这将增强批量数据传输系统的有效性并解决其局限性。