Khái niệm cốt lõi
Socialized learning (SL) is a promising solution that can address the challenges faced by edge intelligence (EI) systems, such as communication costs, resource allocation, and privacy concerns. By incorporating social principles and behaviors, SL can enhance the collaborative capacity and collective intelligence of agents within the EI system, leading to improved adaptability, optimized communication and networking processes, and enhanced security.
Tóm tắt
The paper introduces the concept of socialized learning (SL) as a means to address the challenges faced by edge intelligence (EI) systems. EI, which integrates artificial intelligence (AI) with edge computing (EC), has emerged as a powerful computing paradigm, but it still faces issues related to communication costs, resource allocation, privacy, and security.
The paper first provides an overview of EI and the key challenges it faces. It then introduces the concept of SL, which is inspired by social learning in human societies. SL aims to create a cohesive machine society where social rules are implemented to facilitate collaborative interactions among devices, thereby enhancing overall system intelligence.
The paper then delves into the integration of SL and EI, discussing how SL can address the various challenges faced by EI systems. Specifically, SL can:
- Improve communication efficiency by optimizing data transmission and reducing bandwidth constraints through collaborative learning and knowledge sharing among devices.
- Enhance resource allocation by leveraging collective intelligence to anticipate and optimize resource use, meeting the dynamic requirements of modern tasks and applications.
- Strengthen privacy and security by encouraging devices to share insights and learning experiences rather than raw data, making the network more robust against security threats.
- Optimize caching by enabling devices to cooperatively predict and adaptively cache data based on collective behaviors, enhancing performance in real-time.
- Facilitate effective computation offloading by allowing devices to share knowledge and determine the most suitable device for a task's requirements based on operational factors.
The paper then discusses the socialized architecture for EI, exploring the different functional layers (device, edge, and cloud) and the social stratification that characterizes the architectural choices. It also highlights the importance of advanced communication technologies and robust network designs in ensuring efficient inter-layer communication and resource allocation.
Finally, the paper delves into the concepts of socialized training and socialized inference, analyzing their strengths and weaknesses, and identifying potential future applications of combining SL and EI. The paper concludes by discussing open problems and suggesting future research directions in this emerging and exciting interdisciplinary field.
Thống kê
The paper does not provide any specific numerical data or metrics. It focuses on conceptual discussions and the integration of socialized learning and edge intelligence.
Trích dẫn
"SL is a learning paradigm predicated on social principles and behaviors, aimed at amplifying the collaborative capacity and collective intelligence of agents within the EI system."
"SL not only enhances the system's adaptability but also optimizes communication, and networking processes, essential for distributed intelligence across diverse devices and platforms."
"By incorporating social principles and behaviors, SL can enhance the collaborative capacity and collective intelligence of agents within the EI system, leading to improved adaptability, optimized communication and networking processes, and enhanced security."