Pursuant to 8 CFR §204.5(k)(2), Mr. Xu is an advanced degree professional by virtue of his Bachelor’s degree (US equivalent) in Communication Engineering from Changchun University of Science and Technology in China followed by at least five years of progressive post-baccalaureate experience in the specialty.
 
 
MR. XU QUALIFIES FOR A NATIONAL INTEREST WAIVER
 
In the course of his work, Mr. Xu has acquired a formidable repertoire of knowledge and skills based on his accomplishments in the field of Communication Engineering. Further details of his accomplishments and achievements in the field which evidence that he is well positioned to advance the proposed endeavor are provided below.
 
 
 
A. Mr. Xu’s Proposed Endeavor has both Substantial Merit and National Importance.
 
Mr. Xu intends to continue his work in the United States in the field of Communication Engineering. His endeavors in this regard are of both substantial merit and national importance, as described below:
 
1. Mr. Xu’s proposed endeavor is of substantial merit: Mr. Xu’s efforts in Communication Engineering involve smart community management services and integrating cutting-edge information technology such as big data, cloud computing, Internet of Things (IoT), and artificial intelligence (AI) with community management for smart security, smart buildings, building monitoring, and smart communities. As a result, such work is clearly of substantial merit.
 
2. Mr. Xu’s proposed endeavor is of national importance: Mr. Xu’s research has significant national and international implications and prospective impact for the field of Communication Engineering. Smart cities, also commonly known as digital cities, intelligent cities, and wired cities, are urban areas that collect electronic data from citizens, devices, and assets to manage available resources more efficiently. A wide range of information and communications technology (ICT) applications are used to enhance knowledge and innovation, reduce costs and resource use, promote living and working environments, and increase communication between government and citizens. Information and communications technology is used in smart cities for a wide range of urban services, including hospitals, traffic and transportation, power plants, water supply, waste management, and law enforcement. Smart connections aim to meet market demand and use the city’s public resources across many different use cases more efficiently. Overall, the smart infrastructure segment is projected to be the largest segment over the next five years. The revenue from smart city infrastructure is forecast to grow to more than 100 billion U.S. dollars by 2024, a share of more than 40 percent of the total smart city revenue worldwide. Cities can for example promote the adaptation of smart electricity metering and use sensors to detect leakage and pollution in water infrastructure and resources. Sensors can be placed in city waste containers to determine when they are full or implement dynamic traffic light sequences, among thousands of other possibilities. As the inevitability of increasing and aging urban populations, changing climates and economies, and a substantial shift towards online consumption become evident, the proliferation of using various aspects of smart cities becomes a necessity.
 
  Thus, the technological, commercial, economic, social, environmental, and scientific concerns for which Mr. Xu’s work addresses and will address in the future have broad implications and benefits for the field of Communication Engineering and the United States. Through his sustained activities, these benefits will continue to resonate throughout his field and the United States. Therefore, Mr. Xu’s proposed endeavor is of national importance.
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