biometrical

简明释义

英[ˌbaɪəˈmetrɪk(ə)l]美[ˌbaɪəˈmetrɪkəl]

adj. 生物统计的

英英释义

单词用法

同义词

反义词

例句

1.In the person identification part, we construct databases of biometrical features around the eye area of clients and, for authentication, Schwartz inequality and the sum square error (SSE) are used.

在身份识别这一部分，首先构建客户眼睛周边区域的生物特征数据库用于进行身份验证。在身份验证阶段使用了施瓦茨不等式算法和误差平方和（SSE）算法。

2.Face recognition is an active subject in the area of biometrical recognition technology, and lots of achievements have been obtained.

人脸识别是生物特征识别技术中一个非常活跃的课题，取得了很多研究成果。

3.In the person identification part, we construct databases of biometrical features around the eye area of clients and, for authentication, Schwartz inequality and the sum square error (SSE) are used.

在身份识别这一部分，首先构建客户眼睛周边区域的生物特征数据库用于进行身份验证。在身份验证阶段使用了施瓦茨不等式算法和误差平方和（SSE）算法。

4.Many smartphones now incorporate biometrical 生物特征的 authentication methods like fingerprint scanning.

许多智能手机现在都采用生物特征的身份验证方法，如指纹扫描。

5.The new security system uses biometrical 生物特征的 data to enhance safety.

新的安全系统使用生物特征的数据来增强安全性。

6.The hospital implemented a biometrical 生物特征的 patient identification system to reduce errors.

医院实施了一种生物特征的患者识别系统，以减少错误。

7.Using biometrical 生物特征的 data can improve the accuracy of personal identification.

使用生物特征的数据可以提高个人识别的准确性。

8.The company is developing biometrical 生物特征的 security solutions for online banking.

该公司正在开发针对在线银行的生物特征的安全解决方案。

作文

In today's rapidly evolving technological landscape, the use of biometrical (生物特征的) data has become increasingly prevalent. From unlocking our smartphones to securing our bank accounts, biometrical (生物特征的) identification methods are revolutionizing the way we interact with technology and ensuring a higher level of security. This essay explores the significance of biometrical (生物特征的) technologies, their applications, and the potential ethical implications that come with their widespread use.Firstly, it is essential to understand what biometrical (生物特征的) data entails. Essentially, biometrical (生物特征的) data refers to unique physical characteristics that can be used to identify individuals. Common examples include fingerprints, facial recognition, iris scans, and voice patterns. These traits are not only unique to each person but also remain relatively constant over time, making them ideal for identification purposes.The applications of biometrical (生物特征的) technology are vast and varied. In the realm of security, many organizations have adopted biometrical (生物特征的) systems to enhance their safety measures. For instance, airports utilize facial recognition technology to streamline passenger verification processes, significantly reducing wait times and improving overall efficiency. Similarly, banks have implemented fingerprint scanners at ATMs, allowing customers to access their accounts without the need for traditional PINs, which can be easily forgotten or stolen.Moreover, biometrical (生物特征的) identification is not limited to security alone; it is also making waves in healthcare. Hospitals are beginning to use biometrical (生物特征的) data to improve patient care. For example, biometric wristbands can monitor patients' vital signs and automatically update their medical records, ensuring that healthcare providers have real-time access to critical information. This can lead to more accurate diagnoses and timely interventions, ultimately saving lives.Despite the numerous benefits that come with biometrical (生物特征的) technology, there are significant ethical concerns that must be addressed. One of the primary issues is privacy. As more organizations collect and store biometrical (生物特征的) data, the risk of breaches increases. If sensitive information such as fingerprints or facial scans were to fall into the wrong hands, it could lead to identity theft or unauthorized surveillance. Therefore, it is crucial for companies to implement robust security measures to protect this data and ensure that it is used responsibly.Another ethical consideration is consent. Many individuals may not fully understand how their biometrical (生物特征的) data is being collected and used. It is vital for organizations to be transparent about their practices and obtain informed consent from users. This not only builds trust but also empowers individuals to make informed decisions about their personal data.In conclusion, the rise of biometrical (生物特征的) technology presents both exciting opportunities and daunting challenges. As we continue to integrate biometrical (生物特征的) identification methods into our daily lives, it is essential to strike a balance between leveraging the benefits of these technologies and safeguarding individual rights. By addressing the ethical implications and prioritizing privacy and consent, we can harness the full potential of biometrical (生物特征的) data while protecting the interests of individuals in an increasingly digital world.

在当今快速发展的技术环境中，使用biometrical（生物特征的）数据变得越来越普遍。从解锁我们的智能手机到保护我们的银行账户，biometrical（生物特征的）识别方法正在彻底改变我们与技术的互动方式，并确保更高水平的安全性。本文探讨了biometrical（生物特征的）技术的重要性、应用及其广泛使用所带来的潜在伦理影响。首先，了解biometrical（生物特征的）数据的含义至关重要。基本上，biometrical（生物特征的）数据是指可以用来识别个人的独特身体特征。常见的例子包括指纹、面部识别、虹膜扫描和声音模式。这些特征不仅对每个人都是独一无二的，而且随着时间的推移相对稳定，使它们成为理想的识别用途。biometrical（生物特征的）技术的应用广泛多样。在安全领域，许多组织已采用biometrical（生物特征的）系统来增强其安全措施。例如，机场利用面部识别技术来简化乘客验证流程，显著减少等待时间，提高整体效率。同样，银行在自动取款机上实施指纹扫描，允许客户在不需要传统密码的情况下访问他们的账户，这些密码很容易被遗忘或窃取。此外，biometrical（生物特征的）识别不仅限于安全；它在医疗保健领域也开始发挥作用。医院开始使用biometrical（生物特征的）数据来改善患者护理。例如，生物识别腕带可以监测患者的生命体征，并自动更新他们的病历，确保医疗提供者能够实时访问关键信息。这可以导致更准确的诊断和及时的干预，最终挽救生命。尽管biometrical（生物特征的）技术带来了众多好处，但必须解决重大伦理问题。主要问题之一是隐私。随着越来越多的组织收集和存储biometrical（生物特征的）数据，泄露的风险也随之增加。如果敏感信息如指纹或面部扫描落入错误之手，可能导致身份盗窃或未经授权的监视。因此，企业必须实施强有力的安全措施来保护这些数据，并确保负责任地使用它。另一个伦理考虑是同意。许多个人可能并不完全理解他们的biometrical（生物特征的）数据是如何被收集和使用的。组织必须透明其做法，并获得用户的知情同意。这不仅建立了信任，还使个人能够就其个人数据做出明智的决定。总之，biometrical（生物特征的）技术的崛起带来了令人兴奋的机会和严峻的挑战。随着我们继续将biometrical（生物特征的）识别方法融入日常生活，必须在利用这些技术的好处与保护个人权利之间取得平衡。通过解决伦理影响并优先考虑隐私和同意，我们可以充分利用biometrical（生物特征的）数据的潜力，同时保护个人在日益数字化的世界中的利益。