02162nas a2200217   4500000000100000000000100001008004100002260001200043653001700055100001200072700002600084700002000110700001500130700001500145245001800160856008000178300000600258490000600264520166000270022001401930       2022                            d  c09/202210aEditors Note1 aLei Shu1 aJoel J.P.C. Rodrigues1 aAnthony G. Cohn1 aQirong Mao1 aMaozhen Li00aEditor's Note  uhttps://www.ijimai.org/journal/sites/default/files/2022-08/ijimai_7_5_0.pdf  a40 v73 aAs the Internet of Things (IoT) further develops and expands to the Internet of Everything (IoE), high-speed multimedia streaming data processing, analysis, and shorter response times are increasingly becoming the demands of today. Driven by the Internet of Things (IoT), a new computing paradigm, Edge computing, is currently developing rapidly. Compared with traditional centralized generalpurpose computing, Edge computing is a distributed architecture. The operations of applications, data and services are moved from the central node of the network to the edge nodes on the network logic for processing. Under this structure, the analysis of data and the generation of knowledge are closer to the source of the data, so it is more suitable for processing. However, with the rapid development of 5G, IoT and other services and scenarios, there are more and more intelligent terminal devices. Multimedia streaming processing in IoT becomes a very prominent problem. To overcome this problem, the adoption of intelligent Edge or Artificial Intelligence (AI) powered Edge computing (Edge-AI) can achieve the goals of lower cost, higher security, lower latency, and ease of management.
Recently, many network modeling methods, computing algorithms, and signal processing technologies have been successfully developed and applied to multimedia streaming processing in IoT with Edge Intelligence. A total of 13 papers are presented in this special issue for the purpose of collecting the latest developments and results on this research topic. We divide them into three categories: production and life applications, security, and text and image processing.  a1989-1660