-[5.4.1 Smart Shopping with Edge-AI and Cloud IoT Integration](#541smart-shopping-with-edge-ai-and-cloud-iot-integration)
-[5.5 Future Home](#55future-home)
-[5.5.0 Description](#550description)
-[5.6.1 User Premises Edge and oneM2M Integration](#561user-premises-edge-and-onem2m-integration)
-[5.5.1 User Premises Edge and oneM2M Integration](#551user-premises-edge-and-onem2m-integration)
-[6 MEC-oneM2M Architectural \& Use Case Mapping](#6mec-onem2m-architectural--use-case-mapping)
-[6.0 Introduction](#60introduction)
-[6.1 MEC Frameworks](#61mec-frameworks)
@@ -409,7 +409,7 @@ If needed, IoT actuators in the real store—such as digital signage or voice as
The Smart Home domain is rapidly evolving toward immersive, responsive, and personalized services powered by real-time data and intelligent automation. This clause presents a use case that integrates the oneM2M IoT platform with the ETSI MEC framework to enable advanced home experiences such as real-time media interactions, remote education, elderly care, and intelligent automation.
### 5.6.1 User Premises Edge and oneM2M Integration
### 5.5.1 User Premises Edge and oneM2M Integration
This use case showcases the integration of ETSI MEC and oneM2M platforms to support immersive, responsive, and personalized Smart Home services. It addresses real-time media processing (e.g., holoportation), education delivery, elderly care (aging in place), and home automation. The architecture features a centralized oneM2M IN-CSE deployed on MEC node that manages smart devices across the multiple homes, and localized MN-CSEs deployed on non-MEC nodes (e.g., within an ISP gateway or smart home hub) that perform latency-sensitive tasks such as video processing, sensor fusion, and context-aware automation. If MEC supports CPEs, then MEC systems can discover them and MEP enables MEC applications to offload real time data processing tasks to this non-MEC systems.
