subaudio telegraphy
简明释义
亚音频电报
英英释义
例句
1.In underwater exploration, subaudio telegraphy is essential for transmitting data between submarines without disturbing marine life.
在水下探索中,亚声波电报技术对于在不干扰海洋生物的情况下传输潜艇之间的数据至关重要。
2.The military has adopted subaudio telegraphy for secure communications that are undetectable by enemy forces.
军方已采用亚声波电报技术进行安全通信,这些通信不易被敌方侦测。
3.Using subaudio telegraphy, the team was able to send signals across long distances without interference.
利用亚声波电报技术,团队能够在没有干扰的情况下发送远距离信号。
4.The researchers developed a new method for communication using subaudio telegraphy, which allows messages to be sent without audible sound.
研究人员开发了一种新的通信方法,使用亚声波电报技术,可以在没有可听声音的情况下发送消息。
5.During the conference, the speaker explained how subaudio telegraphy could revolutionize personal communication devices.
在会议期间,演讲者解释了亚声波电报技术如何革新个人通信设备。
作文
In the realm of communication technology, various methods have been developed to transmit information efficiently and effectively. One such method that has recently gained attention is subaudio telegraphy, which refers to a technique of transmitting messages below the audible frequency range. This innovative approach utilizes sound waves that are imperceptible to the human ear, allowing for the transfer of data without causing disturbance or distraction to individuals in the vicinity.The concept of subaudio telegraphy can be traced back to the early days of telecommunication when inventors were constantly seeking ways to improve the clarity and reach of their signals. Traditional telegraphy relied on audible signals, which could often be disrupted by environmental noise or interference from other devices. By shifting the transmission to subaudible frequencies, engineers aimed to create a more reliable means of communication that would not be affected by such disturbances.One of the most significant advantages of subaudio telegraphy is its ability to transmit information over long distances without the need for extensive infrastructure. Unlike conventional methods that require physical wires or cables, this technique can utilize existing sound propagation channels, making it a cost-effective solution for remote communication. Moreover, since the signals are below the threshold of human hearing, they can be transmitted in environments where traditional methods would be impractical or disruptive.Applications of subaudio telegraphy are diverse and span various fields, including military communications, underwater exploration, and even medical diagnostics. In military settings, for instance, it allows for secure communication between units without alerting the enemy. Underwater, where radio waves struggle to penetrate, subaudio telegraphy can facilitate communication between submarines or divers, providing a vital link in situations where conventional methods fail.In the medical field, researchers are exploring the use of subaudio telegraphy for monitoring patients' vital signs. By transmitting data related to heart rates or other critical measurements via subaudible signals, healthcare professionals can receive real-time updates without the need for intrusive equipment or alarms that might disturb the patient’s rest.Despite the promising potential of subaudio telegraphy, there are challenges that need to be addressed. One major concern is the development of effective encoding and decoding methods to ensure that the transmitted data remains accurate and secure. Additionally, researchers must consider the impact of environmental factors on signal integrity, as variations in temperature, pressure, and humidity can affect sound propagation.As technology continues to advance, the future of subaudio telegraphy looks bright. With ongoing research and development, we may soon witness a new era of communication that transcends the limitations of current methods. Whether it’s enhancing military operations, improving medical care, or facilitating underwater exploration, the applications of subaudio telegraphy are boundless, paving the way for a more connected and efficient world.In conclusion, subaudio telegraphy represents a fascinating intersection of sound and technology, offering innovative solutions to longstanding communication challenges. As we delve deeper into this field, it is essential to continue exploring its capabilities and addressing the hurdles that lie ahead. The journey of subaudio telegraphy is just beginning, and its potential impact on our lives could be monumental.
在通信技术领域,各种方法被开发出来以有效和高效地传输信息。其中一种最近受到关注的方法是次声电报,它指的是一种在可听频率范围以下传输信息的技术。这种创新的方法利用人耳无法察觉的声波,使得数据的传输不会对周围的人造成干扰或分心。次声电报的概念可以追溯到电信早期,当时发明者不断寻求改善信号清晰度和覆盖范围的方法。传统电报依赖于可听信号,这些信号往往会受到环境噪声或其他设备干扰的影响。通过将传输转移到次声频率,工程师们旨在创建一种更可靠的通信手段,不会受到此类干扰的影响。次声电报的一个重要优势是能够在不需要大量基础设施的情况下远距离传输信息。与传统方法需要物理线路或电缆不同,这种技术可以利用现有的声传播通道,使其成为一种成本效益高的远程通信解决方案。此外,由于信号低于人类听觉阈值,因此可以在传统方法不切实际或具有干扰性的环境中进行传输。次声电报的应用领域广泛,涵盖军事通信、水下探索甚至医学诊断等多个领域。例如,在军事环境中,它允许部队之间进行安全通信,而不会警告敌人。在水下,电波难以穿透的地方,次声电报可以促进潜艇或潜水员之间的通信,在常规方法失效的情况下提供重要的联系。在医疗领域,研究人员正在探索使用次声电报监测患者的生命体征。通过通过次声信号传输与心率或其他关键测量相关的数据,医疗专业人员可以实时接收更新,而无需侵入性设备或可能打扰患者休息的警报。尽管次声电报具有良好的潜力,但仍需解决一些挑战。一个主要问题是开发有效的编码和解码方法,以确保传输数据的准确性和安全性。此外,研究人员还必须考虑环境因素对信号完整性的影响,因为温度、压力和湿度的变化会影响声音传播。随着技术的不断进步,次声电报的未来看起来光明。随着持续的研究和开发,我们可能很快会见证一种超越当前方法限制的新通信时代。无论是增强军事行动、改善医疗护理还是促进水下探索,次声电报的应用都是无穷无尽的,为一个更加连接和高效的世界铺平了道路。总之,次声电报代表了声音与技术的迷人交汇点,为长期存在的通信挑战提供了创新解决方案。随着我们深入探索这一领域,继续探索其能力并解决面临的障碍至关重要。次声电报的旅程才刚刚开始,其对我们生活的潜在影响可能是巨大的。
