odd-even check
简明释义
奇偶检验
英英释义
例句
1.The school used an odd-even check 奇偶检查 system to organize student attendance on alternate days.
学校使用odd-even check 奇偶检查系统来安排学生在不同的日子出勤。
2.During the festival, the government announced an odd-even check 单双号检查 for vehicles to ensure smooth transportation.
在节日期间,政府宣布对车辆进行odd-even check 单双号检查,以确保交通顺畅。
3.During the pandemic, many cities adopted an odd-even check 单双号管理 policy for public transportation.
在疫情期间,许多城市采用了odd-even check 单双号管理政策来管理公共交通。
4.To manage water usage, the town applied an odd-even check 奇偶检查 for irrigation days.
为了管理用水,镇上对灌溉日实施了odd-even check 奇偶检查。
5.The city implemented an odd-even check 单双号限行 to reduce traffic congestion during peak hours.
城市实施了一个odd-even check 单双号限行,以减少高峰时段的交通拥堵。
作文
The concept of odd-even check is often employed in various contexts, particularly in traffic management and resource allocation. In urban areas, cities face the challenge of congestion and pollution, which can significantly impact the quality of life for residents. To combat these issues, many cities have implemented an odd-even check system for vehicle use. This system restricts vehicles based on the last digit of their license plates, allowing only those with odd or even numbers to be on the road on specific days. For instance, if a car's license plate ends with an odd number, it is permitted to drive on odd-numbered days, while even-numbered plates can drive on even-numbered days.This method aims to reduce the number of vehicles on the road, thereby decreasing traffic jams and lowering emissions. The success of the odd-even check system can be observed in cities like Beijing, where air quality has improved during the implementation periods. However, this system is not without its challenges. Critics argue that it can lead to increased inconvenience for drivers who may need to adjust their schedules or find alternative transportation methods. Moreover, there are concerns about the fairness of such regulations, as they may disproportionately affect lower-income individuals who rely on their vehicles for daily commuting.In addition to traffic control, the odd-even check concept can also be applied in other areas, such as resource distribution in programming or gaming. For example, when allocating resources or tasks among a group of users or players, an odd-even check can help ensure a balanced approach. By dividing tasks between odd and even identifiers, developers can create a fair system that prevents any single user from monopolizing resources.Furthermore, the odd-even check can be useful in data validation processes, where it is necessary to determine if a number is odd or even. This check can be implemented in various programming languages, providing a simple yet effective way to manage data integrity. For instance, in Python, a straightforward condition can be used: if a number modulo 2 equals zero, it is even; otherwise, it is odd. Such checks are fundamental in ensuring that programs run smoothly and efficiently.Overall, the odd-even check serves as a practical tool in multiple domains, from managing urban traffic to organizing resources in technology. Its versatility demonstrates how a simple concept can have far-reaching implications. As cities continue to grow and technology advances, finding innovative solutions like the odd-even check will be crucial in addressing the challenges we face today. Whether it’s improving air quality or enhancing software performance, the applications of this concept are vast and significant. Therefore, understanding and implementing the odd-even check can lead to more efficient systems and a better quality of life for everyone involved.
“奇偶检查”的概念在各种场合中经常被使用,尤其是在交通管理和资源分配方面。在城市地区,城市面临着拥堵和污染的挑战,这些问题会显著影响居民的生活质量。为了应对这些问题,许多城市实施了“奇偶检查”系统来限制车辆使用。该系统根据车辆牌照的最后一个数字来限制车辆的行驶,允许仅在特定的日子里使用奇数或偶数的车辆。例如,如果一辆车的牌照以奇数结尾,它将在奇数日允许上路,而偶数车牌则可以在偶数日上路。这种方法旨在减少道路上的车辆数量,从而减少交通堵塞和降低排放。“奇偶检查”系统在北京等城市的成功实施使空气质量在实施期间得到了改善。然而,这一系统并非没有挑战。批评者认为这可能导致司机的不便,他们可能需要调整时间表或寻找替代交通方式。此外,还有人担心这种规定的公平性,因为它可能会对依赖车辆通勤的低收入个体产生不成比例的影响。除了交通控制外,“奇偶检查”的概念还可以应用于其他领域,例如编程或游戏中的资源分配。例如,在将资源或任务分配给一组用户或玩家时,可以使用“奇偶检查”来确保一种平衡的方法。通过将任务划分为奇数和偶数标识符,开发者可以创建一个公平的系统,防止任何单一用户垄断资源。此外,“奇偶检查”在数据验证过程中也非常有用,当需要确定一个数字是奇数还是偶数时。这种检查可以在各种编程语言中实现,提供一种简单而有效的方法来管理数据完整性。例如,在Python中,可以使用简单的条件:如果一个数字模2等于零,则它是偶数;否则,它是奇数。这种检查在确保程序顺利高效运行中是基础性的。总的来说,“奇偶检查”作为一个实用工具在多个领域中发挥作用,从管理城市交通到组织技术资源。它的多功能性展示了一个简单概念如何具有深远的影响。随着城市的不断发展和科技的进步,寻找像“奇偶检查”这样创新的解决方案将对应对我们今天面临的挑战至关重要。无论是改善空气质量还是提升软件性能,这一概念的应用范围广泛且意义重大。因此,理解和实施“奇偶检查”可以导致更高效的系统和每个人更好的生活质量。
