IoT-IMS Platform for Future Internet This project considers OA&M (Operation, Administration, and Maintenance) for IoT-IMS communication platforms. IoT device or network bandwidth and other information the traffic capture and dynamic bandwidth allocation, ensure that the overall system objects are available. The administration plane defines operation plane QoS strategy for packet delivery and network services. It ensures that services are dynamically adjusted to meet demand, to optimize the performance of system operation, and ensure reliable service. The maintenance plane is responsible for monitoring and treating IoT device and to ensure that services run smoothly. This plane collaborates with other subproject by exchange current user function to ensure that the all of the system information is consistent. The results are expected to be useful in building a standard of Internet IoT-IMS communications test platform. The investigation will also consider standardization, the accuracy of the latest technology, and the domestic research and development integration. This result will be integrated into existing communication network architectures to ensure availability and integrated functionality. Furthermore, this project will investigate problems and solution strategies as important references for future Internet IoT-IMS deployment and the operation of communications test platforms. With the evolution wireless communications and mobile computing technology, many of the standard protocols meet different needs and being released as open resources protocol. Service providers and users in a heterogeneous network environment can use open resources, such as Session Initiation Protocols and the IMS (IP Multimedia Subsystem) platform. They provide voice, data and video and other applications, based on an open and standardized architecture. The proposed project develops the IoT (Internet of Things) concept, and uses a heterogeneous network platform IMS of to design a future Internet IoT-IMS communication platform for use in daily life, based on mobile terminal equipment, sensors and smart devices that are connected to the Internet. The platform also uses cloud computing technology, to provide high-speed computing power and storage space to reduce the system delay that is caused by access to large amounts of data.