biotelemetry

简明释义

英[ˌbaɪəʊtɪˈlemɪtri]美[baɪəteˈlɪmətri]

[生物][自] 生物遥测术

英英释义

单词用法

同义词

反义词

例句

1.This paper emphasizes remote medical treatment system and its exploitation, realization and application. It gives an overview of the recent development of biotelemetry.

介绍了远程医疗系统及其开发，实现与应用，以及近期远程医疗系统的新进展。

2.This paper emphasizes remote medical treatment system and its exploitation, realization and application. It gives an overview of the recent development of biotelemetry.

介绍了远程医疗系统及其开发，实现与应用，以及近期远程医疗系统的新进展。

3.The use of biotelemetry in space missions helps scientists gather data on astronauts' physiological responses.

在太空任务中使用生物遥测帮助科学家收集宇航员生理反应的数据。

4.The researchers used biotelemetry to monitor the heart rates of athletes during training sessions.

研究人员使用生物遥测来监测运动员在训练期间的心率。

5.By employing biotelemetry, doctors can track patients' vital signs remotely.

通过使用生物遥测，医生可以远程跟踪患者的生命体征。

6.Veterinarians apply biotelemetry to monitor the health of wild animals in their natural habitats.

兽医应用生物遥测来监测野生动物在其自然栖息地的健康情况。

7.The study on marine life utilized biotelemetry to understand fish migration patterns.

对海洋生物的研究利用生物遥测来了解鱼类的迁徙模式。

作文

Biotelemetry is a fascinating field that combines biology and technology to monitor and analyze biological data remotely. This innovative approach has revolutionized the way we study living organisms, particularly in their natural habitats. By utilizing various sensors and communication technologies, researchers can gather real-time data on physiological parameters such as heart rate, temperature, and movement patterns without disturbing the subjects. The term biotelemetry refers specifically to this process of collecting biological data from a distance, allowing for non-invasive studies of wildlife and other organisms.One of the most significant applications of biotelemetry is in wildlife conservation. For instance, scientists often attach small tracking devices to animals, which transmit information about their location and behavior. This data is crucial for understanding migration patterns, habitat use, and the impact of environmental changes on different species. Such insights enable conservationists to develop effective strategies to protect endangered species and their habitats. For example, the tracking of sea turtles using biotelemetry has provided valuable information about their nesting sites and migration routes, leading to better protective measures.Moreover, biotelemetry is not limited to wildlife studies; it also plays a critical role in human health monitoring. In medical settings, wearable devices equipped with sensors can track vital signs such as heart rate and blood pressure. This data can be transmitted to healthcare providers, allowing for continuous monitoring of patients' conditions. Such technology is particularly beneficial for individuals with chronic illnesses, as it enables timely interventions and personalized care. The integration of biotelemetry in healthcare has the potential to improve patient outcomes significantly by facilitating early detection of health issues.The advancement of biotelemetry technologies has also led to exciting developments in sports science. Athletes now wear devices that monitor their performance metrics, including speed, distance traveled, and physiological responses during training sessions. Coaches and trainers can analyze this data to optimize training regimens and enhance overall performance. By leveraging biotelemetry, athletes can gain a competitive edge while minimizing the risk of injury through informed decision-making based on real-time feedback.Despite its numerous benefits, the use of biotelemetry raises ethical considerations that must be addressed. For instance, the collection of data from living organisms, whether human or animal, necessitates a careful balance between scientific inquiry and the welfare of the subjects involved. Researchers must ensure that their methods do not cause undue stress or harm to the organisms being studied. Additionally, issues related to data privacy and consent are paramount, especially in human health applications. As biotelemetry continues to evolve, it is crucial for scientists and policymakers to establish guidelines that prioritize ethical practices in research.In conclusion, biotelemetry is a powerful tool that enhances our understanding of biological systems through remote data collection. Its applications in wildlife conservation, healthcare, and sports science demonstrate its versatility and potential for positive impact. However, as we embrace the advancements in this field, it is essential to remain vigilant about the ethical implications and strive for responsible use of technology. The future of biotelemetry holds great promise, paving the way for innovative solutions to complex biological challenges.

生物遥测是一个迷人的领域，它结合了生物学和技术，以远程监测和分析生物数据。这种创新的方法彻底改变了我们研究生物有机体的方式，特别是在它们的自然栖息地中。通过利用各种传感器和通信技术，研究人员可以在不打扰受试者的情况下收集生理参数（如心率、温度和运动模式）的实时数据。生物遥测一词特指这一过程，即从远处收集生物数据，从而允许对野生动物和其他生物进行非侵入性研究。生物遥测最重要的应用之一是在野生动物保护方面。例如，科学家经常将小型跟踪设备附加到动物身上，这些设备会传输有关其位置和行为的信息。这些数据对于了解迁徙模式、栖息地使用以及环境变化对不同物种的影响至关重要。这些见解使保护主义者能够制定有效的策略来保护濒危物种及其栖息地。例如，利用生物遥测跟踪海龟提供了有关其巢穴和迁徙路线的宝贵信息，从而导致更好的保护措施。此外，生物遥测不仅限于野生动物研究；它在医疗健康监测中也发挥着关键作用。在医疗环境中，配备传感器的可穿戴设备可以跟踪生命体征，如心率和血压。这些数据可以传输给医疗提供者，从而允许对患者状况的持续监测。这项技术对于慢性病患者尤其有益，因为它能够及时干预和个性化护理。生物遥测在医疗保健中的整合有可能显著改善患者结果，通过基于实时反馈的知情决策促进健康问题的早期发现。生物遥测技术的进步还导致了体育科学中令人兴奋的发展。运动员现在佩戴设备，监测他们的表现指标，包括速度、行驶距离和训练期间的生理反应。教练和训练师可以分析这些数据，以优化训练方案并提高整体表现。通过利用生物遥测，运动员可以获得竞争优势，同时通过基于实时反馈的知情决策来最小化受伤风险。尽管有许多好处，使用生物遥测也引发了必须解决的伦理考虑。例如，从生物有机体（无论是人类还是动物）收集数据需要在科学探究与受试者福利之间保持微妙的平衡。研究人员必须确保他们的方法不会给被研究的生物造成不必要的压力或伤害。此外，涉及数据隐私和同意的问题尤为重要，特别是在人体健康应用中。随着生物遥测的不断发展，科学家和政策制定者必须建立优先考虑伦理实践的指导方针。总之，生物遥测是一种强大的工具，通过远程数据收集增强了我们对生物系统的理解。它在野生动物保护、医疗保健和体育科学中的应用展示了其多功能性和积极影响的潜力。然而，在我们接受这一领域的进步时，保持对伦理影响的警惕并努力负责任地使用技术至关重要。生物遥测的未来充满希望，为复杂的生物挑战铺平了创新解决方案的道路。