Against the backdrop of the "dual carbon" goals, China is striving to reach peak carbon emissions by 2030 and achieve carbon neutrality by 2060, leading all industries toward a path of green, low-carbon, and sustainable development. Guided by this ambitious vision, innovation in engineering technology is accelerating, particularly in infrastructure safety monitoring. Intelligent and precision detection technologies have become pivotal in driving the industry's transformation and upgrading.

To respond to the dual carbon goals, accelerating the intelligent transformation and upgrading of infrastructure has become a crucial pathway for promoting green development. As a key element in ensuring public safety and the normal operation of projects, the importance of slope stability is increasingly prominent. Traditional slope monitoring methods, hindered by low efficiency and delayed information synchronization, can no longer meet current demands. Technological innovation is urgently needed to enhance monitoring efficiency and accuracy.

The DY-DZE-WYY Displacement Monitor, as a high-tech monitoring tool, employs precise sensors and real-time data transmission technology to continuously monitor minute displacement changes in slopes 24 hours a day, providing timely warnings of potential safety hazards. The application of this technology not only significantly enhances monitoring efficiency and accuracy but also reduces carbon emissions from human operations, aligning with the green development philosophy under the dual carbon goals.

The device primarily employs built-in high-precision displacement sensors to continuously monitor surface movements on slopes. When even minor shifts occur, the sensors capture these changes and transmit data in real time to the monitoring center via wireless communication technology. Combined with intelligent analysis software, the displacement detector rapidly processes the data. Upon detecting abnormal displacement, it immediately activates an early warning mechanism, alerting relevant departments to take action and effectively prevent catastrophic incidents.

The innovative application of displacement monitoring instruments not only provides robust technical support for slope safety protection but also makes significant contributions to advancing green and low-carbon development in the engineering construction sector. Moreover, the widespread adoption of displacement monitoring instruments not only offers strong technical backing for slope safety protection but also plays a vital role in promoting green and low-carbon development within the engineering construction field.