The rapid growth of the Internet of Things has broken people’s way of thinking and brought tremendous changes to
people’s lives. For key configurations, the Internet of Things is included in the central distribution component of cloud computing,
transmission networks, and sensor acceptance techniques. The future Internet of Things is similar to the human body, with different
induction and cognitive fields to complete functional tasks, and is a key component of work efficiency and the creation of intelligent
control systems. The laboratory is a training ground for colleges and universities to cultivate creative and commercial talents, and
has a special mission of cultivating skills and training talents. In recent years, the quality of laboratory knowledge has been greatly
improved, but the management model can still meet the needs of teaching, laboratory and technology opening, scientific research,
and the development of new and business talents. In the future, university laboratories should learn high-quality design ideas, use
Internet of Things technology, Internet technology and ARM technology to build an effective intelligent management system to
understand laboratory intelligence. Therefore, this article recommends a local Web-based laboratory construction program, aimed at
improving the quality of test information services, while using Internet technology in the laboratory for RFID technology, wireless
sensor network and ZigBee technology. Build a common speech and open platform. Based on the comprehensive collection and indepth analysis of test data, the platform provides applications and services for collaboration, sharing and application to fully meet
the needs of different users (such as educators, students, and trial administrators), and focus on monitoring And manage university
laboratories. In order for the country to better cultivate its engineering talents in the new era, this is important and historically
significant.
A DHT-Based Discovery Service for the Internet of Things