Voice over Internet Protocol (VoIP) is a promising low-cost voice communication over IP networks. In a mobile/wireless environment, the radio resource is restricted and the reliability of the wireless transmission is much poor than that of the wired environment. To provide satisfactory VoIP services in the mobile/wireless network, the Quality of Service (QoS) of the network should be guaranteed. Due to the advances of various wireless technologies, the VoIP service is provisioned in different wireless networks. To achieve telecom grade security, we propose a WLAN-3G integrated security approach that reuses the UMTS authentication key in the WLAN environment and conduct a modeling study to tune the IEEE 802.1X parameters to yield better authentication delay performance. Furthermore, we investigate the VoIP packet delivery efficiency in the wireless environment (i.e., WLAN network). In 3GPP specifications, the authenticated WLAN MS is allowed to access the 3G network through the WAG/PDG. However, to ensure telecom grade security, the VoIP traffic between the MS and the WAG/PDG must be protected with IPsec. We analyze the performance of IPsec-based VoIP service in a IEEE 802.11b WLAN environment. The IPsec overheads in terms of throughput, packet loss rate, latency, and jitter are investigated. Finally, we present the VoIP performance in the vehicle environment. We conduct trials in the real WiMAX network which supports high-speed mobile broadband services and investigate the WiMAX-based VoIP of a Mobile Taiwan (M-Taiwan) funded program conducted during 2007-08 in the Taipei area. We investigate the VoIP performance in the wireless environment. These research results presented in this dissertation can be viewed as a useful foundation for further VoIP performance study in various advanced wireless environments.