electronic self-balancing

简明释义

电子式自动平衡

英英释义

例句

1.Many modern bicycles now incorporate electronic self-balancing technology for enhanced safety.

许多现代自行车现在都采用了电子自平衡技术，以增强安全性。

2.The robot uses electronic self-balancing to navigate through obstacles without falling.

这个机器人使用电子自平衡技术在障碍物中导航而不跌倒。

3.The electronic self-balancing feature in this hoverboard allows users to easily control their movements.

这款悬浮滑板车的电子自平衡功能使用户能够轻松控制自己的动作。

4.The new scooter features an electronic self-balancing system that makes it easier to ride.

这款新滑板车配备了一个电子自平衡系统，使骑行变得更加简单。

5.With electronic self-balancing, the skateboard can maintain stability even on uneven surfaces.

通过电子自平衡，滑板即使在不平坦的表面上也能保持稳定。

作文

In recent years, the concept of electronic self-balancing has gained significant popularity, particularly in the realm of personal transportation devices. This technology refers to the ability of a device to maintain its balance through electronic sensors and motors, allowing it to remain upright without the need for manual intervention. The most notable examples of electronic self-balancing devices are electric scooters, hoverboards, and self-balancing unicycles. These innovations have not only transformed the way we commute but have also introduced new challenges and considerations for safety and regulation.The principle behind electronic self-balancing is relatively simple yet highly effective. At the core of these devices are gyroscopic sensors that detect the angle and orientation of the device. When a rider leans forward, the sensors communicate with the onboard computer, which adjusts the motors to propel the device forward. Conversely, if the rider leans backward, the motors will reverse to slow down or stop. This real-time adjustment allows for a smooth and intuitive riding experience, making it accessible even for beginners.One of the most appealing aspects of electronic self-balancing devices is their ease of use. Unlike traditional bicycles or skateboards, which require a certain level of skill and balance, these devices can be operated with minimal training. This democratization of personal transportation has led to a surge in their popularity among people of all ages. For instance, children can quickly learn to ride a hoverboard, while adults can use electric scooters for commuting to work.However, the rise of electronic self-balancing technology has also raised important questions about safety. Despite their intuitive design, accidents can occur, especially when riders are inexperienced or fail to follow safety guidelines. Many cities have begun to implement regulations regarding the use of these devices on public roads and sidewalks. Riders are often required to wear helmets and follow specific traffic rules to minimize the risk of injury.Moreover, the environmental impact of electronic self-balancing devices cannot be overlooked. As they are often powered by rechargeable batteries, they offer a more sustainable alternative to gas-powered vehicles. They produce zero emissions during operation, contributing to cleaner air in urban areas. However, the production and disposal of batteries raise concerns about resource depletion and pollution. Therefore, it is essential for manufacturers to adopt environmentally friendly practices throughout the lifecycle of these devices.In conclusion, electronic self-balancing technology represents a significant advancement in personal transportation. It offers convenience, accessibility, and a greener alternative to traditional vehicles. Nonetheless, as this technology continues to evolve, it is crucial for users, manufacturers, and regulators to work together to ensure safety and sustainability. By doing so, we can fully harness the benefits of electronic self-balancing devices while minimizing their potential drawbacks. As we look to the future, it is clear that this technology will play an increasingly important role in how we navigate our world.

近年来，电子自平衡的概念在个人交通设备领域获得了显著的关注。这项技术指的是一种设备通过电子传感器和电机来维持其平衡的能力，从而使其在不需要人工干预的情况下保持直立。最明显的例子是电动滑板车、悬浮滑板和自平衡独轮车。这些创新不仅改变了我们的通勤方式，还带来了安全和监管的新挑战和考虑。电子自平衡的原理相对简单但非常有效。这些设备的核心是陀螺传感器，可以检测设备的角度和方向。当骑行者向前倾斜时，传感器会与车载计算机通信，计算机会调整电机以推动设备向前行驶。相反，如果骑行者向后倾斜，电机会反向以减速或停止。这种实时调整使得骑行体验流畅且直观，使初学者也能轻松上手。电子自平衡设备最吸引人的一个方面是其易用性。与传统自行车或滑板需要一定的技巧和平衡能力不同，这些设备的操作只需最少的培训即可。个人交通的这种民主化使得各个年龄段的人都能迅速接受。例如，儿童可以快速学习骑乘悬浮滑板，而成年人可以使用电动滑板车通勤上班。然而，电子自平衡技术的兴起也引发了关于安全的重要问题。尽管设计直观，但事故仍然可能发生，尤其是在骑行者缺乏经验或未遵循安全指南的情况下。许多城市已开始实施有关在公共道路和人行道上使用这些设备的法规。骑行者通常被要求佩戴头盔并遵循特定的交通规则，以降低受伤风险。此外，电子自平衡设备的环境影响也不容忽视。由于这些设备通常由可充电电池供电，因此它们提供了一种比燃油动力车辆更可持续的替代方案。在运行过程中，它们不会产生排放，有助于改善城市地区的空气质量。然而，电池的生产和处置引发了对资源枯竭和污染的担忧。因此，制造商在整个设备生命周期内采用环保实践至关重要。总之，电子自平衡技术代表了个人交通的重大进步。它提供了便利性、可达性和比传统车辆更环保的替代方案。然而，随着这项技术的不断发展，用户、制造商和监管机构必须共同努力，以确保安全和可持续性。通过这样做，我们可以充分利用电子自平衡设备的优势，同时最小化其潜在缺点。展望未来，显然这项技术将在我们如何导航世界中发挥越来越重要的作用。