In recent years, the application of the Internet of Things(Io T) has become an emerging business. The most important concept of next-generation network for providing a common global IT platform is combining seamless networks and networked things, objects or sensors. Also, wireless body area networks(WBANs) are becoming mature with the widespread usage of the Io T. In order to support WBAN, the platform, scenario and emergency service are necessary due to the sensors in WBAN being related to wearer’s life. The sensors on the body detect a lot of information about bioinformatics and medical signals, such as heartbeat and blood.Thus, the integration of Io T and network communication in daily life is important. However, there is not only a lack of common fabric for integrating Io T with current Internet and but also no emergency call process in the current network communication environment. To overcome such situations, the prototype of integrating Io T and emergency call process is discussed. A simulated bootstrap platform to provide the discussion of open challenges and solutions for deploying Io T in Internet and the emergency communication system are analyzed by using a service of 3GPP IP multimedia subsystem. Finally, the prototype for supporting WBAN with emergence service is also addressed and the performance results are useful to service providers and network operators that they can estimate their migration to Io T by referring to this experience and experiment results. Furthermore, the queuing model used to achieve the performance of emergency service in IMS and the delay time of the proposed model is analyzed. The recent important, the application of the Internet of Things (Io T) has become an emerging business. The most important concept of next-generation network for providing a common global IT platform is combining seamless networks and networked things, objects or sensors. , wireless body area networks (WBANs) are becoming mature with the broad usage of the Io T. In order to support WBAN, the platform, scenario and emergency service are necessary due to the sensors in WBAN being related to wearer’s life. The sensors on the body detect a lot of information about bioinformatics and medical signals, such as heartbeat and blood.Thus, the integration of Io T and network communication in daily life is important. However, there is not only a lack of common fabric for integrating Io T with current Internet and but also no emergency call process in the current network communication environment. To overcome such situations, the prototype of integrating Io T and emergency call process is discussing ed. A simulated bootstrap platform to provide the discussion of open challenges and solutions for deploying Io T in Internet and the emergency communication system is analyzed by using a service of 3GPP IP multimedia subsystem. Finally, the prototype for supporting WBAN with emergence service is also addressed and the performance results are useful to service providers and network operators that they can estimate their migration to Io T by referring to this experience and experiment results. Furthermore, the queuing model used to achieve the performance of emergency service in IMS and the delay time of the proposed model is analyzed.